Eric Nizeyimana | Computer Science | Best Researcher Award

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Dr. Eric Nizeyimana | Computer Science | Best Researcher Award

Lecturer from University of Rwanda, Rwanda

Dr. Eric Nizeyimana is a Rwandan researcher and academic specializing in Internet of Things (IoT) and embedded systems. He has built a career grounded in advanced technological solutions for environmental and infrastructural challenges, particularly in air pollution monitoring and data-driven IoT applications. His recent work includes developing decentralized, predictive frameworks using blockchain, machine learning, and IoT technologies to track pollution spikes in real time. With extensive research and teaching experience across African and Asian academic institutions, including the University of Rwanda and Seoul National University, he brings a global perspective to technological development. Dr. Nizeyimana is known for integrating practical and scalable systems with academic rigor, earning recognition for his innovative and impactful work. His contributions have been published in several reputable journals, and he continues to influence the next generation of engineers and scientists through both classroom teaching and research mentorship. Fluent in English, French, Kinyarwanda, and Swahili, and having held leadership roles in academic committees and church communities, he blends technical excellence with interpersonal and organizational strengths. As a proactive researcher and educator, Dr. Nizeyimana continues to push the boundaries of IoT systems in addressing societal issues, especially in transportation, environmental sustainability, and smart infrastructure.

Professional Profile

Education

Dr. Eric Nizeyimana has pursued a progressive academic path centered on engineering, mathematical sciences, and emerging technologies. He earned his Ph.D. in Internet of Things (IoT) with a specialization in Embedded Systems from the University of Rwanda – College of Science and Technology (UR-CST), under the African Center of Excellence in Internet of Things (ACEIoT), in collaboration with Seoul National University (SNU), South Korea, from 2020 to 2024. His doctoral research focused on environmental monitoring systems using IoT and edge computing technologies, particularly addressing air pollution monitoring and predictive analytics. Prior to this, he completed a master’s program in Mathematical Sciences at the African Institute for Mathematical Sciences (AIMS-Cameroon) in 2015. His academic foundation was laid through a bachelor’s degree in Computer Engineering from the Kigali Institute of Science and Technology (KIST), which he completed in 2012. This strong foundation in both engineering and mathematics positioned him well for his advanced research in smart systems and applied technologies. His educational journey reflects a consistent focus on interdisciplinary innovation, bridging computational science, real-world data systems, and environmental sustainability. Through scholarships and competitive academic grants, Dr. Nizeyimana has demonstrated academic excellence and international competitiveness.

Professional Experience

Dr. Eric Nizeyimana has accumulated rich professional experience in academia and research-focused technical roles. As of October 2024, he serves as a Lecturer at the University of Rwanda – College of Science and Technology, where he also previously held the role of Assistant Lecturer between August 2015 and May 2017. In this capacity, he has taught diverse subjects, including Embedded Computer Systems, Artificial Intelligence, Java Programming, and Computer Programming. He has also supervised undergraduate and graduate research projects and contributed to proposal writing and curriculum development. From April to October 2023, Dr. Nizeyimana was a researcher at Seoul National University, where he developed IoT-based systems for environmental monitoring, optimized embedded systems, and analyzed complex data. Between 2019 and 2023, he worked as an IT Analyst and Training Officer at the African Institute for Mathematical Science (AIMS), coordinating IT infrastructure, providing technical training, and managing secure digital environments. Earlier, from 2017 to 2018, he held the role of IT Officer and System Administrator at AIMS in both Rwanda and Cameroon. These roles highlight his hybrid expertise in teaching, systems design, network security, and capacity building, establishing him as a technically proficient and educationally driven professional.

Research Interests

Dr. Eric Nizeyimana’s research interests lie at the intersection of the Internet of Things (IoT), embedded systems, edge computing, and environmental monitoring. He focuses on developing intelligent, decentralized systems to address real-world challenges such as air pollution, particularly in urban transportation networks. His work explores the integration of edge devices, machine learning algorithms, and blockchain technologies to design predictive and real-time monitoring solutions. Another key interest involves leveraging IoT infrastructures for smart city applications, including traffic management, public health monitoring, and resource optimization. Dr. Nizeyimana is particularly interested in how embedded systems can be adapted to constrained environments to achieve high accuracy with low power consumption and minimal latency. In addition to technical development, he investigates the ethical and infrastructural implications of deploying such technologies in developing countries. His research also includes data analytics for IoT devices, remote sensing systems, and system interoperability within distributed computing frameworks. Through his multidisciplinary approach, he seeks to expand the boundaries of scalable, secure, and sustainable technology for societal benefit. These interests reflect his commitment to using engineering innovation to improve public services, infrastructure management, and environmental stewardship in both local and global contexts.

Research Skills

Dr. Eric Nizeyimana possesses advanced research skills in embedded systems design, IoT application development, and edge computing architecture. He is proficient in integrating IoT sensors and communication protocols with real-time data processing systems to monitor and analyze environmental data, especially for detecting air pollution peaks. His work involves embedded system programming, circuit design, microcontroller deployment, and the use of platforms such as Arduino and Raspberry Pi. He also has experience in machine learning model development for predictive analytics, including supervised learning techniques applied to transportation and pollution datasets. Dr. Nizeyimana demonstrates expertise in decentralized systems using blockchain for data immutability and enhanced security. Additionally, he has strong skills in scientific writing, proposal development, and collaborative project implementation. His ability to design end-to-end solutions—from hardware development to software implementation and data interpretation—sets him apart in the IoT research space. Furthermore, he is skilled in academic dissemination, having presented at multiple international seminars and conferences. His competence in working across multicultural teams, both locally and internationally, further enhances his collaborative research capabilities. These skills are underpinned by a solid background in programming languages such as Python, Java, and C++, along with system administration and IT infrastructure management.

Awards and Honors

Dr. Eric Nizeyimana has been recognized for his academic excellence and research contributions through various prestigious awards. In 2023, he received the Mobility Research Grant from Rwanda’s National Council of Science and Technology (NCST), which enabled him to conduct critical experimental work at an international research institution. This grant, valued at approximately 8 million Rwandan francs, supported his living and research expenses during a two-month exchange, reflecting the national confidence in his research potential. In 2020, he was awarded a full four-year Ph.D. scholarship through the Partnership for skills in Applied Sciences, Engineering and Technology (PASET), a competitive regional initiative aimed at promoting advanced STEM education in Africa. His leadership and service have also been acknowledged through appointments such as PhD student representative and Master’s student representative, demonstrating trust in his leadership within academic communities. In addition, his consistent presence at international conferences and seminars, along with publications in respected peer-reviewed journals, underscores his active engagement in the global research community. These honors not only validate his academic achievements but also highlight his capability to drive impactful, solution-oriented research with both national and international relevance.

Conclusion

Dr. Eric Nizeyimana embodies the qualities of an outstanding researcher through his technical innovation, academic leadership, and commitment to solving real-world problems using emerging technologies. His focused research in IoT, embedded systems, and air pollution monitoring has generated valuable insights into how smart systems can be leveraged for environmental and urban challenges. His publication record in high-quality journals and active participation in global research exchanges reflect a strong orientation toward scholarly excellence and international collaboration. With a foundation in mathematics and engineering, his interdisciplinary approach allows him to bridge theory and application effectively. His work with institutions like Seoul National University and AIMS demonstrates adaptability, technical depth, and professional maturity. As an educator, he contributes to capacity building through teaching, mentorship, and curriculum development. Recognized with competitive grants and scholarships, he has proven his potential to lead transformative research in both academic and industrial contexts. While there remains room for broader global engagement and interdisciplinary outreach, Dr. Nizeyimana has established himself as a valuable contributor to the research community. His profile makes him a highly suitable candidate for recognition under a Best Researcher Award, affirming both his achievements and future promise.

Publications Top Notes

  1. Prototype of monitoring transportation pollution spikes through the internet of things edge networks

    • Authors: E. Nizeyimana, D. Hanyurwimfura, J. Hwang, J. Nsenga, D. Regassa

    • Year: 2023

    • Citations: 7

    • Journal: Sensors, 23(21), 8941

  1. Integration of Vision IoT, AI-based OCR and Blockchain Ledger for Immutable Tracking of Vehicle’s Departure and Arrival Times

    • Authors: M. Sichinga, J. Nsenga, E. Nizeyimana

    • Year: 2023

    • Citations: Not listed

    • Conference: 2023 8th Int. Conf. on Machine Learning Technologies

  1. Miniaturized Ultrawideband Microstrip Antenna for IoT‐Based Wireless Body Area Network Applications

    • Authors: U. Pandey, P. Singh, R. Singh, N.P. Gupta, S.K. Arora, E. Nizeyimana

    • Year: 2023

    • Citations: 15

    • Journal: Wireless Communications and Mobile Computing, 2023(1), 3950769

  1. IOT‐Based Medical Informatics Farming System with Predictive Data Analytics Using Supervised Machine Learning Algorithms

    • Authors: A. Rokade, M. Singh, S.K. Arora, E. Nizeyimana

    • Year: 2022

    • Citations: 20

    • Journal: Computational and Mathematical Methods in Medicine, 2022(1), 8434966

  1. Design of smart IoT device for monitoring short-term exposure to air pollution peaks

    • Authors: E. Nizeyimana, J. Nsenga, R. Shibasaki, D. Hanyurwimfura, J.S. Hwang

    • Year: 2022

    • Citations: 7

    • Journal: International Journal of Advanced Computer Science and Applications (IJACSA)

  1. Design of a decentralized and predictive real-time framework for air pollution spikes monitoring

    • Authors: E. Nizeyimana, D. Hanyurwimfura, R. Shibasaki, J. Nsenga

    • Year: 2021

    • Citations: 9

    • Conference: 2021 IEEE 6th Int. Conf. on Cloud Computing and Big Data Analysis

  1. Effect of Window Size on PAPR Reduction in 4G LTE Network Using Peak Windowing Algorithm in Presence of Non-linear HPA

    • Authors: M. Fidele, H. Damien, N. Eric

    • Year: 2020

    • Citations: 10

    • Conference: 2020 IEEE 5th Int. Conf. on Signal and Image Processing (ICSIP)

  1. Monitoring system to strive against fall armyworm in crops: case study on maize in Rwanda

    • Authors: D. Hanyurwimfura, E. Nizeyimana, F. Ndikumana, D. Mukanyiligira, …

    • Year: 2018

    • Citations: 7

    • Conference: 2018 IEEE SmartWorld/Ubiquitous Intelligence & Computing

  1. Comparative study on performance of High Performance Computing under OpenMP and MPI on Image Segmentation

    • Authors: E. Hitimana, E. Nizeyimana, G. Bajpai

    • Year: 2016

    • Citations: 1

    • Conference: Third International Conference on Advances in Computing, Communication and Informatics

  1. Development of an encrypted patient database including a doctor user interface

  • Author: E. Nizeyimana

  • Year: 2015

  • Citations: Not listed

  • Institution: African Institute for Mathematical Sciences Tanzania

GUO Yuxi | Biological Sciences | Best Researcher Award

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Dr. GUO Yuxi | Biological Sciences | Best Researcher Award

Shaanxi University of Science and Technology, China

GUO Yuxi is an emerging scholar with a dynamic research profile focused on edible mushrooms, polysaccharides, and gut microbiota. She has demonstrated significant scholarly productivity and impact early in her academic career, with a high H-index of 19 and over 15 peer-reviewed articles in high-impact journals. Her work bridges fundamental biochemistry and applied food science, particularly emphasizing the bioactivity of natural compounds, postharvest preservation, and polysaccharide-based health benefits. Notably, several of her publications are listed as ESI Highly Cited Papers, reflecting the recognition and influence of her research within the scientific community. Despite still pursuing her Ph.D. at Jiangnan University, she has assumed leading roles in various studies, publishing as both first and corresponding author. Her dedication to translational research, combining biological mechanisms with practical food applications, has distinguished her as a young innovator. Her scientific contributions not only advance knowledge but also have the potential for broad application in the nutraceutical and food industries. With a focused trajectory, impactful publications, and early leadership in research, GUO Yuxi stands as a promising candidate for prestigious research awards and recognition in the field of food science, biotechnology, and nutrition.

Professional Profile

Education

GUO Yuxi has built her academic foundation through a progressive and focused educational journey within China. She earned her Bachelor of Science degree in 2018 from Shandong University of Technology, where she likely gained her initial training in food science, chemistry, or biological sciences. This foundational experience was followed by a Master of Science degree from Shaanxi University of Science and Technology in collaboration with the Institute of Microbiology at the Guangdong Academy of Sciences, completed in 2022. This interdisciplinary academic setup allowed her to integrate microbiological insights with applied food and health science research. Currently, she is pursuing her Ph.D. at Jiangnan University, one of the top institutions in China for food science and technology. Her doctoral work continues to explore the bioactivity of edible mushrooms and polysaccharides, focusing on their digestion, fermentation, and biological effects. Her continuous academic progression through reputable universities demonstrates both consistency and depth in her educational background. It also highlights her growing specialization in food bioactives and gut-organ interactions. The combination of strong academic institutions and relevant disciplines has equipped her with both theoretical and experimental skills essential for leading independent research in the field of functional foods and nutraceuticals.

Professional Experience

Though still a Ph.D. candidate, GUO Yuxi has demonstrated a professional level of research competence, undertaking responsibilities typically reserved for more senior researchers. Throughout her postgraduate and doctoral studies, she has been engaged in extensive experimental and publication-driven work. As a Master’s student at Shaanxi University of Science and Technology, she conducted collaborative research with the Guangdong Academy of Sciences, where she gained practical experience in microbiology and advanced food biochemistry. During this time, she began to publish high-quality research, signaling early scientific maturity. Her current Ph.D. work at Jiangnan University involves complex investigations into the structural and functional properties of edible mushroom polysaccharides, in vitro digestion models, and bioactivity assays. Notably, she has acted as both first and corresponding author for numerous peer-reviewed journal articles, demonstrating leadership in project design, data analysis, manuscript preparation, and submission. These activities indicate a level of independence, professionalism, and academic rigor that goes beyond the expectations of a typical doctoral student. Her ability to manage multiple studies and lead research efforts affirms her readiness for more advanced academic or industry-based roles. This trajectory underscores her suitability for awards recognizing young researchers with outstanding early-career achievements.

Research Interests

GUO Yuxi’s research interests center around bioactive compounds derived from edible and medicinal mushrooms, with a special focus on polysaccharide chemistry, biological activity, and digestive behavior. A significant portion of her work involves characterizing the structural properties of mushroom polysaccharides and elucidating their mechanisms in promoting health outcomes such as antidepressant, hypoglycemic, and antiviral effects. She is particularly interested in how these compounds behave in human digestion and how they interact with gut microbiota during in vitro fermentation, aiming to explore their potential in regulating metabolic and inflammatory pathways. Her focus on postharvest preservation strategies for mushrooms also aligns with the sustainable and functional food movement, emphasizing natural preservatives and edible coatings to maintain quality and extend shelf life. Furthermore, she is exploring cutting-edge topics such as the gut-organ axis and using advanced tools like gut-on-chip technology to better understand systemic effects. These multidisciplinary interests sit at the intersection of food science, microbiology, nutrition, and biotechnology, giving her research both scientific depth and societal relevance. Through her work, she aims to contribute to the development of functional foods and therapeutic agents that are rooted in natural products and traditional dietary elements, reimagined through modern scientific approaches.

Research Skills

GUO Yuxi possesses a robust set of research skills that reflect her multidisciplinary expertise in food chemistry, microbiology, and biomedical sciences. Her technical abilities include polysaccharide extraction, purification, and structural characterization using techniques such as FTIR, NMR, and HPLC. She is proficient in designing and executing in vitro digestion and fermentation experiments, enabling her to simulate human gastrointestinal conditions and evaluate bioactivity post-digestion. Her skillset also includes biochemical assays for antioxidant, anti-inflammatory, hypoglycemic, and antidepressant properties, often validated using cell culture models and metabolomic analyses. As a corresponding author, she demonstrates strong scientific writing, data interpretation, and research project management skills. She is experienced in working across multiple teams and disciplines, showcasing excellent collaborative ability. Her work also includes applications of gut-on-chip technology, indicating familiarity with organ-on-chip systems and emerging biotechnological platforms. In addition, her contributions to postharvest food preservation highlight practical knowledge in developing bioactive films and coatings. These skills position her well for both academic and industrial research environments, particularly those focusing on functional foods, nutraceuticals, and natural product pharmacology. Overall, her technical competencies, combined with critical thinking and innovation, enable her to undertake complex research projects with high scientific and translational value.

Awards and Honors

Although specific details of awards or formal honors are not provided, GUO Yuxi’s research has been distinguished by the recognition of multiple publications as ESI Highly Cited Papers, which reflects exceptional citation performance within the top 1% of her field. This distinction underscores the scientific impact and relevance of her work, which is uncommon for researchers at the doctoral stage. Publishing extensively as both first and corresponding author in high-impact journals further indicates recognition from the academic community and peer reviewers. Additionally, her rapid accumulation of publications in Q1 and Q2 journals and an H-index of 19 demonstrate excellence in research productivity. These achievements likely qualify her for institutional or national-level awards for outstanding graduate research, though such accolades are not listed. Nevertheless, her trajectory suggests she is on track to receive formal recognition for her work in the near future. With more exposure to international collaborations and academic conferences, she is well-positioned to compete for early-career researcher awards, young scientist honors, and best paper awards at scholarly events. Her current academic output already surpasses typical benchmarks for graduate researchers, highlighting her eligibility for awards that honor innovation, impact, and scientific leadership at the early stage of a research career.

Conclusion

GUO Yuxi stands out as a highly capable and promising early-career researcher whose contributions have already had a notable impact in the field of food science and bioactive compounds. With a focused research agenda on edible mushroom polysaccharides, gut microbiota interaction, and natural food preservation, she has carved out a niche at the intersection of fundamental science and practical application. Her publication record, including multiple ESI Highly Cited Papers and an H-index of 19, is extraordinary for a Ph.D. candidate and reflects deep commitment, innovation, and scientific excellence. She has shown leadership by taking on first and corresponding author roles, and she has demonstrated a range of advanced experimental and analytical skills. While further international exposure and formal award recognitions could enhance her profile, her current achievements already place her among the most productive and impactful young researchers in her field. Her scientific contributions hold promise for significant advancements in functional foods and natural therapeutics. In conclusion, GUO Yuxi is an excellent candidate for a Best Researcher Award and represents the future of interdisciplinary, health-driven food research with both academic and translational impact.

Publications Top Notes

  • Structural characterization and hypoglycemic activity of Cordyceps sinensis polysaccharide (CSP-3)
    Authors: Pin Gong, Yingying Ke, Xiaojuan Wang, Hui Long, Wenjuan Yang, Jing Wang, Nan Li, Yanni Zhao, Fuxin Chen, Yuxi Guo
    Year: 2024

  • Siraitia grosvenorii As a Homologue of Food and Medicine: A Review of Biological Activity, Mechanisms of Action, Synthetic Biology, and Applications in Future Food
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Hui Long, Jiating Wang, Wenjuan Yang, Wenbo Yao
    Year: 2024

  • Recent advances in quality preservation of postharvest golden needle mushroom (Flammulina velutiper)
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Zhenfang Deng, Zhuoya Qi, Ruotong Wang, Hui Long, Jiating Wang, Wenbo Yao, Wenjuan Yang et al.
    Year: 2023

  • Protective Effect of Astragaloside IV against Cadmium-Induced Damage on Mouse Renal Podocytes (MPC5)
    Authors: Pin Gong, Shan Yue, Fuxiong Shi, Wenjuan Yang, Wenbo Yao, Fuxin Chen, Yuxi Guo
    Year: 2023

  • Structure Characterization, In Vitro Antioxidant and Anti-Tumor Activity of Sulfated Polysaccharide from Siraitia grosvenorii
    Authors: Pin Gong, Mengrao Wang, Yuxi Guo, Hui Long, Zhineng Wang, Dandan Cui, Wenbo Yao, Wenjuan Yang, Fuxin Chen, Jianwu Xie
    Year: 2023

  • Advances in Postharvest Storage and Preservation Strategies for Pleurotus eryngii
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Ruotong Wang, Zhuoya Qi, Zhenfang Deng, Aoyang Han, Hui Long, Jiating Wang, Wenbo Yao et al.
    Year: 2023

  • Emerging Nanoparticles in Food: Sources, Application, and Safety
    Authors: Jian Chen, Yuxi Guo, Xianlong Zhang, Jianghua Liu, Pin Gong, Zhuoqun Su, Lihua Fan, Guoliang Li
    Year: 2023

  • The Gut–Organ-Axis Concept: Advances the Application of Gut-on-Chip Technology
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Guoliang Li, Wenbo Yao, Wenjuan Yang
    Year: 2023

  • Advances in the Role and Mechanisms of Essential Oils and Plant Extracts as Natural Preservatives to Extend the Postharvest Shelf Life of Edible Mushrooms
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Ruotong Wang, Aoyang Han, Zhenfang Deng, Zhuoya Qi, Hui Long, Jiating Wang, Wenbo Yao et al.
    Year: 2023

  • In vitro digestion and fecal fermentation of Siraitia grosvenorii polysaccharide and its impact on human gut microbiota
    Authors: Yuxi Guo, Xuefeng Chen, Pin Gong, Mengrao Wang, Wenbo Yao, Wenjuan Yang, Fuxin Chen
    Year: 2022

 

 

Chongan Zhang | Computer Science | Best Researcher Award

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Mr. Chongan Zhang | Computer Science | Best Researcher Award

Researcher from Zhejiang University, China

Chongan Zhang is an accomplished researcher in the field of Biomedical Engineering with nearly a decade of hands-on experience in the research and development of advanced medical devices. Based at Zhejiang University, he has served as a core team member on numerous high-impact projects at national, provincial, and enterprise levels. His research has focused on the development and translational application of high-end medical endoscopes, surgical navigation systems, and digital processing systems used in endoscopic surgical robots. Chongan’s innovative contributions have led to the publication of 10 academic papers indexed in SCI and EI, covering significant topics such as endoscopy and surgical navigation. He holds one national invention patent, which reflects his ability to bridge the gap between academic research and real-world clinical applications. His interdisciplinary approach combines engineering, computer science, and medicine to address key challenges in minimally invasive surgery. Committed to improving surgical precision and patient outcomes, his work in the development of high-speed digital processing and core navigation components has gained recognition in both academic and industrial domains. With a clear focus on translational research, Chongan continues to strive toward excellence in biomedical device innovation, aligning scientific progress with societal healthcare needs.

Professional Profile

Education

Chongan Zhang pursued his academic journey in the field of Biomedical Engineering at Zhejiang University, one of China’s most prestigious institutions for engineering and medical sciences. His formal education provided him with a strong foundation in engineering principles, biological sciences, and clinical applications relevant to medical device development. During his academic tenure, he focused on courses related to medical instrumentation, imaging systems, embedded systems, and biomechanics, all of which shaped his research direction toward minimally invasive technologies and robotic systems. His graduate research work revolved around designing and optimizing surgical navigation systems and high-resolution endoscopic imaging techniques. This training equipped him with both theoretical knowledge and practical skills in device prototyping, data acquisition, digital signal processing, and interdisciplinary integration. The academic environment at Zhejiang University encouraged collaborative and innovation-driven learning, enabling Chongan to take part in cutting-edge projects and cross-disciplinary research. His thesis and project work often involved real-time system simulation, system control algorithms, and micro-electromechanical system (MEMS)-based designs for surgical applications. Overall, his education has been pivotal in preparing him for a research career at the intersection of biomedical engineering, computer science, and clinical technology, shaping his capacity for innovation and translational application in the healthcare sector.

Professional Experience

Chongan Zhang’s professional experience spans close to ten years in biomedical engineering, with a focus on the research, development, and translation of innovative medical devices. During his career, he has played a key role in multiple scientific and technological projects funded by national, provincial, ministerial, and enterprise-level agencies. At Zhejiang University, he has functioned as a central figure in research groups working on endoscopic surgical robots, minimally invasive surgical instrumentation, and high-speed digital processing systems. His primary responsibilities include system architecture design, component integration, algorithm development, and prototype validation. He has collaborated closely with clinicians, engineers, and industrial partners to ensure that the technologies under development meet real-world clinical needs. Notably, he has contributed significantly to the creation of next-generation medical endoscopes and surgical navigation platforms, ensuring they are both functionally advanced and ergonomically designed for clinical use. His experience also includes preparing documentation for regulatory approvals and technology transfer initiatives. By bridging research with industry, he has helped translate laboratory innovations into deployable healthcare solutions. His practical experience across diverse project scales and domains positions him as a well-rounded biomedical engineer with strong problem-solving skills and a commitment to healthcare advancement through engineering innovation.

Research Interests

Chongan Zhang’s research interests lie primarily in the design, development, and optimization of biomedical devices with a focus on endoscopic technologies and surgical navigation systems. He is particularly interested in the intersection of medical imaging, embedded systems, digital signal processing, and robotics, which collectively drive the innovation of next-generation surgical tools. His current research focuses on developing high-speed digital processing systems that enable real-time data handling during endoscopic procedures. Another key area of his interest is the advancement of surgical navigation systems to enhance accuracy and safety in minimally invasive surgeries. This involves both hardware design and the development of real-time localization and tracking algorithms. Chongan is also keen on translating academic research into clinically deployable technologies and is involved in designing core navigation components for robotic-assisted surgical systems. Furthermore, he is exploring the integration of AI-assisted guidance in endoscopic navigation, aiming to improve decision-making during surgeries. His long-term interest includes the development of patient-specific devices and systems that can adapt to diverse surgical environments. By bridging engineering and medicine, he seeks to contribute to the evolution of smart surgical environments and better patient outcomes through technical excellence and user-centered design.

Research Skills

Chongan Zhang possesses a comprehensive skill set that supports his research in biomedical device development and surgical system innovation. He is proficient in the design and fabrication of medical devices, particularly high-performance endoscopes and surgical navigation platforms. His technical capabilities include embedded system programming, high-speed digital signal processing, sensor integration, and real-time data acquisition, all of which are critical for surgical applications. He is also skilled in system modeling, simulation, and validation, enabling him to iterate quickly and efficiently through the research and development cycle. His experience with CAD tools, hardware prototyping, and microcontroller-based system design strengthens his ability to create customized solutions for complex clinical challenges. Chongan is adept in image processing techniques used in endoscopy and navigation, and he frequently applies machine learning methods for optimizing navigation accuracy. Additionally, he has strong competencies in managing interdisciplinary research projects and collaborating with cross-functional teams, including surgeons, regulatory specialists, and industrial engineers. His skill in writing academic papers and securing intellectual property rights through patent applications also reflects his well-rounded research acumen. With a firm grasp of both software and hardware aspects, Chongan is well-equipped to innovate in the highly demanding field of medical device engineering.

Awards and Honors

Throughout his career, Chongan Zhang has earned recognition for his contributions to the biomedical engineering field, particularly in surgical technology innovation. While early in his career relative to more senior researchers, he has already secured a national invention patent, which highlights the originality and practical impact of his research. His participation in multiple government-funded and enterprise-sponsored research projects reflects institutional trust and professional esteem in his capabilities. Furthermore, his ten SCI and EI-indexed academic publications demonstrate that his work meets rigorous scientific standards and contributes to global knowledge in endoscopy and surgical navigation. Though not yet decorated with widely known individual research awards, his track record of successful project execution, research output, and innovation places him on a trajectory for future recognition at national and international levels. His involvement in interdisciplinary teams and industry partnerships has also brought praise for his ability to effectively bridge academic research with real-world application. As his portfolio continues to grow, he is likely to be a strong candidate for awards recognizing innovation, translational research, and medical technology advancement. His achievements to date serve as a foundation for even greater impact and recognition in the biomedical and engineering communities.

Conclusion

Chongan Zhang is a highly competent and innovative researcher whose work in biomedical engineering—especially in the development of surgical navigation systems and endoscopic technologies—demonstrates both depth and practical relevance. With nearly a decade of experience and active involvement in multi-tiered research projects, he exemplifies the qualities of a forward-thinking biomedical engineer. His research is driven by the need for high-precision, minimally invasive surgical tools that can transform clinical practice and improve patient outcomes. He combines strong technical skills with a clear vision for translational research, evidenced by his publications, patent, and collaborative project roles. While still building an international reputation, his consistent academic contributions and technical innovations already place him among the promising researchers in his field. His ability to work across disciplines and his focus on both hardware and software elements of surgical systems make him uniquely equipped to contribute to the future of intelligent surgical environments. With continued support and expanded visibility, he has the potential to become a leading figure in biomedical device innovation. Based on his experience, output, and innovation potential, he is a worthy nominee for the Best Researcher Award and an asset to the global biomedical research community.

Publications Top Notes

📘 Registration, Path Planning and Shape Reconstruction for Soft Tools in Robot-Assisted Intraluminal Procedures: A Review

  • Authors: Chongan Zhang, Xiaoyue Liu, Zuoming Fu, Guoqing Ding, Liping Qin, Peng Wang, Hong Zhang, Xuesong Ye

  • Publication Year: 2025

Hadi Hijazi | Materials Science | Best Researcher Award

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Dr. Hadi Hijazi | Materials Science | Best Researcher Award

R&D engineer from CEA LETI, France

Dr. Hadi Hijazi is a postdoctoral researcher specializing in microelectronics and semiconductor nanostructures, with extensive experience in epitaxial growth and device fabrication. Based in Grenoble, France, he has developed a strong academic and research background through work at top-tier institutions such as CEA-LETI, CNRS/LTM, and Saint Petersburg State University. His research encompasses the design, modeling, and experimental development of III-V materials and nanostructures for high-performance optoelectronic devices, including visible and near-infrared LEDs. His doctoral studies focused on the epitaxial growth of GaAs nanowires via HVPE and the investigation of spin and charge transport. Dr. Hijazi possesses deep technical expertise in MOCVD, HVPE, and cleanroom operations, supported by his proficiency in a wide range of characterization tools such as XRD, SEM, AFM, PL, and Raman spectroscopy. In addition to his laboratory capabilities, he is skilled in modeling and simulation using tools like Matlab, Nextnano, and Mathematica. Multilingual and collaborative, Dr. Hijazi has a history of successful international projects, combining both theoretical insight and experimental innovation. His contributions to the field are reflected in quality publications in peer-reviewed journals, and he maintains active connections with research leaders and institutions in France and abroad. He is currently an R&D engineer at CEA LETI, contributing to hybrid bonding technologies.

Professional Profile

Education

Dr. Hadi Hijazi holds a Ph.D. in Physics of Materials from Institut Pascal at Université Clermont Auvergne, France, where he worked on the development of GaAs nanowires grown on Si substrates using hydride vapor phase epitaxy (HVPE). His research addressed charge and spin diffusion in nanowires, integrating fundamental physics with advanced material synthesis techniques. Prior to his doctoral studies, Dr. Hijazi completed a Master’s degree (M2) in Nanoelectronics and Nanotechnology from Université Grenoble Alpes, where he received training in nanoscale materials, semiconductor physics, and cleanroom-based device fabrication. He also holds a Master 1 in Fundamental Physics and Nanoscience from Université Joseph Fourier in Grenoble, which laid the foundation for his later specialization in materials and device engineering. His academic training has been interdisciplinary, with strong emphasis on physics, nanotechnology, materials science, and applied electronics. His formal education has equipped him with theoretical depth and practical skill sets, enabling his contributions to multidisciplinary research involving physical modeling, simulation, and experimental validation of micro- and nanoscale structures. These qualifications have prepared him well for complex problem-solving in research-intensive environments, particularly within the highly competitive field of semiconductor materials and microelectronics.

Professional Experience

Dr. Hadi Hijazi has accumulated a robust portfolio of research and development experience across premier academic and industrial research institutions. Since July 2023, he has been serving as an R&D Engineer at CEA LETI in Grenoble, where he works on hybrid bonding technologies, a critical area for 3D integration in microelectronics. From October 2021 to June 2023, he served as a postdoctoral researcher jointly at CEA-LETI and CNRS/LTM, contributing to the IRT Nanoelec project. During this tenure, he focused on the design and simulation of novel heterostructures using III-(As,P) materials for high-performance visible and NIR LEDs. His work included epitaxial process development (MOCVD) on 300 mm substrates and comprehensive characterization of material and device properties. Prior to this, he was a postdoctoral researcher at ITMO University and Saint Petersburg State University in Russia, focusing on growth modeling of III-V and IV-IV micro/nanostructures. Dr. Hijazi also undertook an industrial internship at CEA LETI in 2016, studying the bonding of refractory metal thin films for 3D technologies. Throughout his career, he has demonstrated the ability to integrate theory, simulation, and fabrication in practical research, aligning well with multidisciplinary goals in microelectronics and optoelectronics innovation.

Research Interests

Dr. Hadi Hijazi’s research interests center around advanced semiconductor materials and their integration into high-performance optoelectronic and microelectronic devices. He is particularly focused on the design, epitaxial growth, and characterization of III-V compound semiconductors on silicon substrates, with the goal of enabling new generations of energy-efficient light sources and integrated photonics. His doctoral work involved HVPE growth of GaAs nanowires on Si(111) substrates, aiming to understand charge and spin transport mechanisms at the nanoscale. His postdoctoral research extended to MOCVD-based fabrication of InGaAs and InP heterostructures for LED applications and included structural and electro-optical characterization. He is also interested in hybrid bonding technologies and 3D integration techniques critical to the future of chip stacking and packaging. Dr. Hijazi combines experimental efforts with simulation and modeling, employing tools like Matlab and Nextnano to optimize nanostructure design and predict growth behavior. He is deeply engaged in the physical understanding of epitaxy, surface/interface interactions, and defect formation. These interests place him at the intersection of materials physics, nanotechnology, and applied engineering, with relevance to optoelectronics, spintronics, and next-generation semiconductor device platforms.

Research Skills

Dr. Hadi Hijazi possesses a comprehensive set of research skills that span theoretical modeling, experimental techniques, and process development in nanotechnology and materials science. His expertise in vapor phase epitaxy, including both MOCVD and HVPE methods, allows him to develop high-quality III-V semiconductor nanostructures on various substrates. He has extensive cleanroom experience and is adept in device fabrication processes, material growth protocols, and post-growth characterization. He is proficient in a range of analytical tools such as XRD, AFM, SEM, Raman spectroscopy, photoluminescence (PL), and electrochemical and C-V measurements. Dr. Hijazi is also skilled in simulation and modeling, using software like Matlab, Mathematica, Nextnano, Python, and C++ to analyze material behaviors and guide experimental design. His strong command of semiconductor physics and nanostructure dynamics supports both fundamental research and practical application development. He is an effective communicator in French, English, and Arabic, and his collaborative approach to research is evident in his successful engagements with multidisciplinary teams across France and Russia. Additionally, his organizational and documentation skills are well-developed, contributing to his ability to manage complex research tasks and publish high-quality scientific articles.

Awards and Honors

While specific named awards are not listed in the available information, Dr. Hadi Hijazi’s inclusion in competitive research programs and positions at prestigious institutions such as CEA-LETI, CNRS, and ITMO University itself serves as recognition of his capabilities and achievements. His acceptance into highly selective doctoral and postdoctoral programs in France and Russia, coupled with his contributions to projects such as IRT Nanoelec, suggests a high degree of merit and recognition by the scientific community. His publications in internationally recognized journals such as Nanotechnology and Journal of Physical Chemistry C also indicate the quality and impact of his research. Furthermore, his involvement in international collaborations and multidisciplinary research teams demonstrates the professional trust placed in his expertise and reliability. His continuing employment at CEA LETI in a research and development role is itself a form of institutional endorsement, affirming his value in the innovation ecosystem of advanced microelectronics. With further dissemination of his work and engagement in academic presentations or grant-funded leadership, it is likely he will accrue formal honors and awards in the near future.

Conclusion

Dr. Hadi Hijazi is an accomplished early-career researcher with strong potential for further growth in the field of semiconductor nanotechnology and microelectronics. His academic training and international research experience have equipped him with both depth and versatility, enabling contributions to next-generation devices through innovations in epitaxial growth, material design, and device integration. His ability to bridge theoretical modeling with experimental realization is a key asset, particularly in collaborative research environments. While his current achievements position him as a valuable team member and emerging expert, more visible research leadership, independent project development, and broader dissemination of research outputs could further strengthen his candidacy for major research awards. At present, Dr. Hijazi would be an ideal candidate for recognitions aimed at emerging scientists or rising researchers, and with continued productivity and impact, he is well-poised to become a leading figure in semiconductor device research. His technical expertise, commitment to quality, and collaborative ethos make him a noteworthy contributor to academic and industrial R&D. As he continues his career at CEA LETI and beyond, further contributions in both applied technologies and fundamental science can be expected.

Publications Top Notes

  1. Fine Pitch Superconducting Interconnects Obtained with Nb–Nb Direct Bonding

  • Authors: Candice M. Thomas, Pablo Renaud, Meriem Guergour, Edouard Deschaseaux, Christophe Dubarry, Jennifer Guillaume, Elisa Vermande, Alain Campo, Frank Fournel, Hadi Hijazi, Anne-Marie Papon, Catherine Pellissier, Jean Charbonnier

  • Publication Year: 2025

2. Is NaOH Beneficial to Low Temperature Hybrid Bonding Integration?

  • Authors: Hadi Hijazi¹, Paul Noël¹, Samuel Tardif², Karine Abadie¹, Christophe Morales¹, Frank Fournel¹

  • Publication Date: October 30, 2024

 

Agete Tadewos Hirigo | Medicine and Dentistry | Excellence in Research Award

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Mr. Agete Tadewos Hirigo | Medicine and Dentistry | Excellence in Research Award

Hawassa University, Ethiopia

Dr. Agete Tadewos Hirigo is an Assistant Professor at Hawassa University in Ethiopia, specializing in clinical chemistry and medical laboratory sciences. With a robust academic background and extensive research experience, he has significantly contributed to the fields of metabolic disorders, infectious diseases, and clinical diagnostics. Dr. Hirigo has authored over 40 peer-reviewed publications, reflecting his commitment to advancing medical science and improving healthcare outcomes in Ethiopia and beyond.

Professional Profile

Education

Dr. Hirigo’s academic journey began with a Diploma in Medical Laboratory Technology from Addis Ababa University in 2000. He then earned a BSc in Medical Laboratory Technology Sciences from Hawassa University in 2009. In 2012, he completed his MSc in Clinical Laboratory Sciences (Clinical Chemistry) at the University of Gondar. Currently, he is pursuing a PhD in Clinical Nutrition at Addis Ababa University, demonstrating his dedication to continuous learning and specialization in his field.

Professional Experience

Dr. Hirigo’s professional career spans over two decades. He started as a Senior Lab Technologist at Hawassa University Comprehensive Specialized Hospital from 2009 to 2011. He then served as an Expert Clinical Chemist from 2012 to 2015. From 2015 to 2019, he was a Lecturer at the School of Medical Laboratory Sciences, Hawassa University. Since July 2019, he has been serving as an Assistant Professor, where he is involved in lecturing, research, student supervision, and quality assurance in clinical chemistry laboratories.

Research Interests

Dr. Hirigo’s research interests are diverse and impactful. He focuses on metabolic disorders such as dyslipidemia and metabolic syndrome, particularly among HIV-infected and psychiatric patients. His work also encompasses the study of antiretroviral therapy effects, infectious diseases like hepatitis B and C, and public health issues such as hand hygiene practices among schoolchildren. His research aims to address critical health challenges in Ethiopia, contributing to evidence-based interventions and policies.

Research Skills

Dr. Hirigo possesses a comprehensive skill set in clinical laboratory sciences. His expertise includes laboratory diagnostics, clinical chemistry, and the use of statistical tools like SPSS for data analysis. He is proficient in designing and conducting cross-sectional and cohort studies, laboratory quality assurance, and instrument maintenance. His skills are instrumental in both academic research and practical laboratory settings, ensuring high standards of laboratory services and research outputs.

Awards and Honors

While specific awards and honors are not detailed in the available information, Dr. Hirigo’s extensive publication record and academic positions indicate recognition in his field. His involvement in significant research projects and collaborations with other institutions reflect his esteemed status in the academic and medical communities.

Conclusion

Dr. Agete Tadewos Hirigo exemplifies the qualities of a dedicated researcher and educator. His extensive experience, diverse research interests, and commitment to improving healthcare through science make him a valuable asset to the medical community. His work not only advances scientific knowledge but also has practical implications for public health in Ethiopia. Dr. Hirigo’s ongoing contributions continue to inspire and influence the field of clinical laboratory sciences.

Publications Top Notes

📘 1. Rivaroxaban in Rheumatic Heart Disease–Associated Atrial Fibrillation
Authors: SJ Connolly, G Karthikeyan, M Ntsekhe, A Haileamlak, A El Sayed, …
Journal: New England Journal of Medicine, 387(11), 978–988 (2022)
Citations: 200
🔬 Major randomized trial comparing rivaroxaban and vitamin K antagonists in RHD-AF.

📘 2. Hyperuricemia and Metabolic Syndrome in Type 2 Diabetes Mellitus Patients at Hawassa University
Authors: SB Woyesa, AT Hirigo, TB Wube
Journal: BMC Endocrine Disorders (2017)
Citations: 96
🧪 Correlation study of uric acid levels and metabolic syndrome in diabetic patients.

📘 3. Prevalence of Dyslipidemia Among HIV-Infected Patients Using First-Line HAART
Authors: A Tadewos, Z Addis, H Ambachew, S Banerjee
Journal: AIDS Research and Therapy (2012)
Citations: 91
🩺 Comparative cross-sectional analysis in Southern Ethiopia.

📘 4. Burden of Metabolic Syndrome Among HIV-Infected Patients in Southern Ethiopia
Authors: DY Tesfaye, S Kinde, G Medhin, YC Megerssa, A Tadewos, E Tadesse, …
Journal: Diabetes & Metabolic Syndrome: Clinical Research & Reviews, 8(2), 102–107 (2014)
Citations: 84
🧬 Assessment of metabolic complications among PLHIV on ART.

📘 5. Hepatitis B Virus Among Pregnant Women in Yirgalem Hospital, Ethiopia
Authors: A Amsalu, G Ferede, S Eshetie, A Tadewos, D Assegu
Journal: Journal of Pregnancy (2018), Article ID: 8435910
Citations: 78
👶 Implication of HBV screening for preventing mother-to-child transmission.

📘 6. The INVICTUS Rheumatic Heart Disease Research Program
Authors: G Karthikeyan, SJ Connolly, M Ntsekhe, A Benz, S Rangarajan, G Lewis, …
Journal: American Heart Journal, 225, 69–77 (2020)
Citations: 52
🫀 Study design for comparing rivaroxaban vs. VKA in RHD.

📘 7. Gender Influence in Metabolic Syndrome Among PLHIV on ART
Authors: AT Hirigo, DY Tesfaye
Journal: BMC Research Notes (2016)
Citations: 45
📊 Exploration of sex-based differences in ART-related metabolic issues.

📘 8. Length of Stay in Emergency Departments in Southern Ethiopia
Authors: GH Alemu, KG Negari, KM Rodamo, AT Hirigo
Journal: BMC Research Notes (2019)
Citations: 43
🏥 Study of variables influencing emergency department stay duration.

📘 9. Hand Washing Practices Among Primary Schoolchildren in Yirgalem
Authors: D Eshetu, T Kifle, AT Hirigo
Journal: Journal of Multidisciplinary Healthcare (2020), 759–768
Citations: 36
🧼 KAP study on hygiene practices among schoolchildren.

📘 10. Coinfections with Hepatitis B, C, and Syphilis Among HIV Patients
Authors: T Shimelis, Y Tassachew, A Tadewos, MW Hordofa, A Amsalu, …
Journal: HIV/AIDS – Research and Palliative Care
Citations: 33
⚕️ Cross-sectional data on coinfection rates in PLHIV.

 

Shoubhik Chakraborty | Health Professions | Best Researcher Award

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Dr. Shoubhik Chakraborty | Health Professions | Best Researcher Award

Pediatric optometrist from Kalinga Institute of Medical Science, India

Shoubhik Chakraborty is a committed and dynamic professional in the field of Clinical Optometry, specializing in Pediatric Optometry, Binocular Vision, and Cerebral Visual Impairment (CVI). He holds a Bachelor’s degree in Clinical Optometry and Vision Science from NSHM College of Management and Technology, affiliated with MAKAUT. His professional journey is marked by practical clinical experience and a keen interest in advanced vision therapy. Shoubhik has worked with prestigious institutions like Narayana Nethralaya, AIIMS Jodhpur, and currently serves as a Pediatric Optometrist at KIMS, Bhubaneswar. He has demonstrated his research capabilities through multiple scientific publications in peer-reviewed journals. Throughout his career, he has attended major optometry conferences, reflecting his commitment to professional development and learning. With a blend of strong clinical acumen, research enthusiasm, and a drive for innovation in optometry, Shoubhik is poised to contribute meaningfully to the advancement of pediatric vision care. His passion for restoring and enhancing vision, especially among children and individuals with neurological visual impairments, is evident in both his clinical work and academic pursuits. He brings a mix of leadership, creativity, and critical thinking to every assignment, showing potential for further academic and clinical excellence.

Professional Profile

Education

Shoubhik Chakraborty’s educational background showcases a strong foundation in optometry and vision science. He completed his secondary education at Sagardighi Thermal Power School (2014–2015) under the West Bengal Board of Secondary Education (WBBSE) and his higher secondary studies at Karaiya High School (2015–2017) affiliated with the West Bengal Council of Higher Secondary Education (WBCHSE). Building on his early academic success, he pursued a Bachelor’s degree in Clinical Optometry and Vision Science (2017–2021) at NSHM College of Management and Technology, under MAKAUT. During his academic years, he completed vocational training at Susrut Eye Foundation and Research Centre, Kolkata, and undertook a comprehensive internship at MGM Eye Institute, Raipur, Chhattisgarh. Recognizing the importance of specialized training, Shoubhik further pursued a Fellowship in Pediatric Optometry, Binocular Vision, and Cerebral Visual Impairment from Narayana Nethralaya, Bangalore, which he completed between August 2021 and January 2023. His academic background has been complemented by seminars, workshops, and continuous learning in vision therapy and neuro-optometry, equipping him with the latest techniques and research-based practices in his field.

Professional Experience

Shoubhik Chakraborty’s professional journey reflects a strong commitment to clinical excellence and research-oriented optometry practice. After completing his Bachelor’s degree and internship, he pursued a Fellowship at Narayana Nethralaya, Bangalore, specializing in Pediatric Optometry, Binocular Vision, and Cerebral Visual Impairment. Post-fellowship, Shoubhik worked as a Cerebral Visual Impairment Specialist at the prestigious All India Institute of Medical Sciences (AIIMS), Jodhpur, from February 2023 to August 2023. His role at AIIMS involved specialized diagnosis, management, and vision therapy for children with complex neurological visual disorders. Currently, he is employed as a Pediatric Optometrist at KIMS, Bhubaneswar, where he continues to apply and expand his clinical and research expertise. His clinical practice integrates evidence-based methods for treating amblyopia, strabismus, and CVI, and he remains actively involved in patient-centered therapy programs. Shoubhik’s career also includes participation in national conferences, presenting his findings and staying updated with the latest advancements in pediatric and behavioral optometry. His hands-on experience across multiple renowned institutions, combined with research activities and a focus on clinical innovation, positions him as a promising healthcare professional with aspirations for greater leadership in optometry and vision research.

Research Interests

Shoubhik Chakraborty’s research interests center around Pediatric Optometry, Binocular Vision Anomalies, Cerebral Visual Impairment (CVI), Amblyopia Management, and Behavioral Optometry. He is particularly passionate about advancing the understanding of vision therapy and its long-term effects on children with neurological visual impairments. His work focuses on the development and validation of customized vision therapy programs aimed at improving binocular function, stereopsis, and visual acuity in children and young adults. He is also interested in studying the outcomes of early intervention therapies for amblyopia, anisometropia, and CVI, and their impact on patients’ overall quality of life. Shoubhik actively explores neuroplasticity and rehabilitation strategies to help children with brain injuries or developmental delays regain visual function. His goal is to bridge clinical practice and research by developing standardized protocols for vision therapy and contributing to evidence-based pediatric optometry. Furthermore, he is keen on future research collaborations that integrate neuro-optometric rehabilitation with technological innovations such as digital therapies and telehealth models to expand access to specialized vision care services.

Research Skills

Shoubhik Chakraborty possesses a wide range of research and clinical skills critical to his specialization. His research competencies include designing and executing clinical studies, performing statistical analysis of therapy outcomes, critical literature review, and drafting manuscripts for peer-reviewed publication. In clinical practice, he is skilled in the assessment and management of binocular vision disorders, orthoptic evaluations, pediatric visual development assessments, and neuro-optometric rehabilitation for CVI patients. Shoubhik also demonstrates proficiency in customized vision therapy techniques, including anti-suppression therapy, vergence therapy, and accommodative facility enhancement. His training has equipped him with the ability to critically analyze therapy outcomes and continuously refine intervention strategies. He has excellent skills in decision-making, critical thinking, creativity, teamwork, and leadership, which are crucial for multidisciplinary collaboration in clinical research settings. He also holds a diploma in computer applications, enabling him to efficiently manage patient data, conduct research documentation, and prepare presentations. Shoubhik’s ability to merge research rigor with clinical sensitivity makes him well-suited for future roles involving innovation in pediatric optometry and vision science.

Awards and Honors

Shoubhik Chakraborty’s academic and professional journey has been marked by notable achievements and recognitions. His most significant honors come through his contributions to scientific publications in reputed optometry journals. His case study on restoring binocular vision in a 23-year-old myopic anisometropic amblyopia patient was published in Optometry and Visual Performance (October 2023). His retrospective study on the outcomes of vision therapy among children with Cerebral Visual Impairment was also accepted and published in Optometry and Visual Performance (March 2024). Furthermore, his research on the impact of active vision therapy on anisometropic amblyopia cases was published in EC Ophthalmology (September 2024). Beyond publishing, his participation in national-level conferences like the Asia Pacific Optometry Summit, Bengal Optometry Conference, Kolkata Optometry Conference, and Karnataka Optometry Conference demonstrates his active engagement in the professional community. His Fellowship in Pediatric Optometry and Cerebral Visual Impairment from Narayana Nethralaya is another key milestone that highlights his commitment to clinical and academic excellence. These achievements position him as a promising young optometrist with potential for greater recognition and leadership in vision science.

Conclusion

In conclusion, Shoubhik Chakraborty is a highly motivated and emerging professional in the field of optometry, showing commendable progress in both clinical practice and research. His educational background, fellowship training, and hands-on experience with specialized populations such as children with Cerebral Visual Impairment underline his dedication to advancing pediatric vision care. His publications in peer-reviewed journals demonstrate his ability to contribute meaningful research to the field. With strong clinical skills, research acumen, leadership qualities, and a commitment to continuous learning, Shoubhik is well-positioned to make significant contributions to pediatric optometry and vision therapy research. To further strengthen his professional trajectory, he could consider expanding his research portfolio through multicenter studies and pursuing advanced degrees such as a Master’s or Ph.D. Overall, Shoubhik embodies the qualities of a future leader in clinical optometry and research, and he is well-deserving of encouragement and support for higher academic and professional achievements.

Publications Top Notes

  • Recovering Vision and Binocularity in a Presbyopic Patient with Amblyopia
    Authors: SD Shoubhik Chakraborty, Hajira R
    Journal: VDR, Vol. 11(1), p. 48
    Year: 2025

  • Prevalence of Accommodative Insufficiency in Children With Normal Accommodative-Convergence/Accommodation Ratio and Its Association With Refractive Error: A Cross-Sectional Study
    Authors: S Chakraborty, S Parida, SK Mohanty, M Das, S Dash, S Mohanty
    Journal: Cureus, Vol. 17(2)
    Year: 2025

  • The Role of Vision Therapy in the Management of Recurrent Hordeolum
    Authors: S Chakraborty, PP Sahu, SK Mohanty, R Hajira
    Year: 2025

  • Treatment of Anisometropic Amblyopia Using a Combination Approach
    Authors: HR Shoubhik Chakraborty, Shrutakirty Parida
    Journal: VDR, Vol. 10(4), p. 187
    Year: 2024

  • The Impact of Active Vision Therapy on Vision and Binocularity for Anisometropic Amblyopia Cases
    Authors: SR Shoubhik Chakraborty, Shrutakirty Parida, Sahanaz Hossain
    Journal: EC Ophthalmology
    Year: 2024

  • Outcomes Of Vision Therapy Among Children with Cerebral Visual Impairment: A Retrospective Study
    Authors: S Chakraborty, P Sarbajna, A Vinekar, B Shetty
    Journal: Optometry & Visual Performance, Vol. 12(1)
    Year: 2024

  • Case Report: Enhancing Binocular Vision of an Adult with Anisometropic Amblyopia
    Authors: S Chakraborty, P Sarbajna, A Vinekar, B Shetty
    Journal: Optometry & Visual Performance, Vol. 11(3)
    Year: 2023

  • Treatment of Anisometropic Amblyopia Using a Combination Approach (Duplicate Title)
    Authors: S Chakraborty, B Optom, S Parida, R Hajira

  • Let’s Delve Into the Least Explored Visual Pathway
    Author: S Chakraborty

Mohamed Nasreldin | Medicine and Dentistry | Excellence in Research Award

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Assist. Prof. Dr. Mohamed Nasreldin | Medicine and Dentistry | Excellence in Research Award

Consultant Nephrologist from Imam Abdulrahman Bin Faisal, Saudi Arabia

Dr. Mohamed Ahmed Nasreldin is an American consultant internist and nephrologist currently serving as Assistant Professor at King Fahad Hospital of the University (KFHU), Dammam, Saudi Arabia. With over 16 years of clinical experience, he has demonstrated exceptional competence in both internal medicine and nephrology, managing complex cases with compassion, precision, and interdisciplinary collaboration. Dr. Nasreldin holds a rich academic background complemented by international qualifications and fellowships, including the prestigious Fellow of the American Society of Nephrology (FASN). His work spans clinical care, teaching, and research, particularly in dialysis, kidney transplantation, and interventional nephrology. A committed educator, he has contributed significantly to medical education by tutoring nephrology fellows and mentoring residents and medical students. His fluency in Arabic, English, and Russian enhances his ability to connect across cultures and deliver impactful education and care. Dr. Nasreldin has received several awards and certificates of appreciation for his excellence in research presentations, academic contributions, and leadership in clinical practice. With a strong foundation in research and clinical trials, he has authored multiple peer-reviewed publications and continues to contribute to national and international nephrology forums. His career reflects a balanced dedication to patient care, clinical innovation, and academic leadership.

Professional Profile

Education

Dr. Mohamed Ahmed Nasreldin has pursued a comprehensive and international academic journey in medicine and nephrology. He holds a PhD in Clinical Nephrology (2016–2019) from UCN, USA, and a Clinical MD in Internal Medicine from Odessa State Medical University, Ukraine (2005–2009). He also earned an MBBS with honors in Medicine and Surgery from the same institution. His postgraduate education includes an MSc in Renal Medicine and a Postgraduate Diploma in Renal Medicine from the University of South Wales, UK. Dr. Nasreldin’s credentials also include the European Specialty Examination in Nephrology (ESENeph), jointly administered by the UEMS and the Royal College of Physicians, UK, along with a Fellowship from the American Society of Nephrology (FASN) awarded in 2019. His education is further supported by numerous certifications from globally recognized institutions, such as Johns Hopkins University (clinical research), the University of Leiden (kidney and pancreas transplantation), and the Royal College of Physicians, UK (renal medicine). In addition, he has completed specialized training in kidney pathology, gout management, and ADPKD treatment. This robust academic foundation not only underpins his clinical and research proficiency but also reflects his commitment to lifelong learning and evidence-based practice.

Professional Experience

With 16 years of experience in internal medicine and nephrology, Dr. Mohamed Nasreldin has established himself as a highly competent and dedicated clinician. He began his medical career with a residency program at Odessa State Medical University, where he gained extensive exposure to various subspecialties. Since 2009, he has been an integral part of the internal medicine department at King Fahad Hospital of the University (KFHU), Saudi Arabia. In this role, he manages both inpatient and outpatient care, including hemodialysis and peritoneal dialysis patients, and is actively involved in hospital consultations and on-call duties. Dr. Nasreldin’s clinical expertise covers a broad spectrum, from acute kidney injury and chronic kidney disease to renal transplantation and interventional nephrology. In addition to his clinical responsibilities, he plays a pivotal role in medical education and training. He tutors nephrology fellows, mentors residents, and delivers lectures to undergraduate and postgraduate students. His leadership in clinical care, education, and patient safety has been consistently recognized by peers and institutional authorities. Known for his problem-solving abilities under pressure, team collaboration, and organizational skills, Dr. Nasreldin continues to contribute significantly to both patient outcomes and the development of future nephrologists.

Research Interests

Dr. Mohamed Nasreldin’s research interests lie primarily in clinical nephrology, with a strong focus on dialysis modalities, renal transplantation, and interventional nephrology. He is particularly passionate about improving outcomes for patients on peritoneal dialysis and exploring patient-centered decision-making processes in renal care. His doctoral research examined the use of prophylactic antibiotics in end-stage renal disease (ESRD) patients undergoing colonoscopy while on automated peritoneal dialysis—a prospective randomized controlled trial that reflects his commitment to optimizing clinical protocols through evidence-based research. Dr. Nasreldin is also interested in transplant nephrology, including the management of acute and chronic allograft nephropathy, and the development of new catheter insertion techniques. His research extends to diabetes-related kidney disease, endothelial dysfunction in ischemic heart disease, and innovative strategies in nephrology education and practice. He has actively participated in clinical trials, presented findings at national and international conferences, and published research aimed at improving therapeutic outcomes in nephrology. As a mentor, he supervises clinical research for residents and fellows, fostering an academic environment that values inquiry and innovation. His dedication to research enhances his clinical practice, ensuring that patients benefit from the most current and effective medical interventions.

Research Skills

Dr. Nasreldin possesses a well-rounded set of research skills developed over more than a decade of conducting clinical investigations in internal medicine and nephrology. He is experienced in the design, monitoring, and execution of clinical trials, particularly randomized controlled studies that assess new interventions in renal care. His skills encompass the formulation of research hypotheses, patient recruitment and consent, data collection and analysis, and the interpretation of clinical findings for publication and presentation. Dr. Nasreldin is also proficient in guiding research as a supervisor and mentor, especially for nephrology fellows and internal medicine residents. His methodological strengths include statistical analysis, critical appraisal of the literature, and integration of research into clinical practice. Additionally, his ability to present research findings at scientific forums and publish in peer-reviewed journals underscores his communication and academic writing abilities. He is trained in research ethics and regulatory compliance, having completed a clinical research certificate from Johns Hopkins University. His involvement in various educational workshops and clinical symposiums enhances his collaborative research experience. These research skills have enabled him to contribute significantly to medical knowledge in nephrology, while also improving clinical decision-making and patient outcomes.

Awards and Honors

Dr. Mohamed Nasreldin has been recognized multiple times for his contributions to nephrology through awards and certificates of appreciation, reflecting both his clinical excellence and academic achievements. Notably, he received a Certificate of Appreciation at the First Gulf Peritoneal Dialysis Forum in Oman (2024) and won first place for poster presentation at the ISN-EMAN Update Congress in Nephrology, Dubai (2017). His oral presentation on acute kidney injury at the Saudi International Congress of Nephrology and Transplantation (2018) earned commendation, as did his role as a speaker at the International Conference of Diabetes and Its Complications in Baltimore (2017). He was honored by the nephrology division at King Fahad Hospital of the University for upholding high standards of care aligned with JCI requirements. Additionally, his participation in public awareness events, such as World Kidney Day, and academic initiatives like the 3rd Annual Research Day at King Saud University (2012), further illustrate his professional commitment. These accolades emphasize his role as a thought leader in nephrology, combining research, clinical practice, and public engagement. The consistent recognition from national and international platforms affirms Dr. Nasreldin’s impact on advancing kidney health and medical education.

Conclusion

Dr. Mohamed Ahmed Nasreldin stands out as a distinguished clinician, educator, and researcher in the field of nephrology, making him a strong candidate for the Excellence in Research Award. His extensive academic background, including a PhD in clinical nephrology and fellowship with the American Society of Nephrology, lays the foundation for his clinical acumen and research productivity. With over 16 years of experience, Dr. Nasreldin has shown exemplary commitment to improving patient outcomes, mentoring the next generation of physicians, and contributing to the scientific community. His research spans dialysis innovations, kidney transplantation, and interventional nephrology, all grounded in real-world clinical challenges. While his scholarly output could benefit from more high-impact journal publications and international collaborations, his existing contributions and active engagement in medical forums are noteworthy. Dr. Nasreldin’s work aligns closely with the criteria for the Excellence in Research Award—particularly through his original investigations, teaching impact, and patient-centered clinical innovations. His trajectory reflects a blend of practical application and academic inquiry, reinforcing his value to the nephrology community. Continued institutional support and broader research dissemination could further enhance his profile, making him not only a deserving recipient but also a future leader in academic nephrology.

Publications Top Notes

  1. An update on sickle cell nephropathy
    Author: A. Alhwiesh
    Journal: Saudi Journal of Kidney Diseases and Transplantation, 25(2), 249–265
    Year: 2014
    Citations: 54

  2. The use of SGLT2 inhibitors in peritoneal dialysis patients: a shade of light on dapagliflozin
    Authors: A.K. Alhwiesh, I.S. Abdul-Rahman, M.A. Nasreldin, A.M. Mohammed, …
    Journal: Archives of Nephrology and Urology, 5(1), 1–8
    Year: 2022
    Citations: 15

  3. Pregnancy in peritoneal dialysis and an infant with a ventricular septal defect
    Author: A. Alhwiesh
    Journal: Saudi Journal of Kidney Diseases and Transplantation, 26(1), 111–114
    Year: 2015
    Citations: 8

  4. A nephrologist dream of peritoneal dialysis catheter with zero migration: a multicenter prospective study
    Authors: A.K. Al‐Hwiesh, I.S. Abdul‐Rahman, J.C. Divino‐Filho, M.A. Nasreldin, …
    Journal: Therapeutic Apheresis and Dialysis, 28(1), 89–95
    Year: 2024
    Citations: 5

  5. A novel three cuff peritoneal dialysis catheter with low entry technique: three years single center experience
    Authors: A. Al-Hwiesh, I. Abdul-Rahman, N. Al-Audah, A. Noor, M. Nasreldin
    Journal: Urol Nephrol Open Access J, 4(5), 150–156
    Year: 2017
    Citations: 5

  6. The problem of pulmonary arterial hypertension in end-stage renal disease: can peritoneal dialysis be the solution
    Authors: A.K. Alhwiesh, I.S. Abdul-Rahman, A. Alshehri, A. Alhwiesh, M. Elnokeety, …
    Journal: BMC Nephrology, 23(1), 386
    Year: 2022
    Citations: 4

  7. Is percutaneous gastrostomy tube insertion contraindicated in adult peritoneal dialysis patients? A single-centre experience of three successful cases: it is time to revisit
    Authors: A. Alhwiesh, L. Alayoobi, H.A. Aljenaidi, K.M. Alshehabi, I. Abokaker Alghnimi, …
    Journal: The International Journal of Artificial Organs, 45(4), 438–441
    Year: 2022
    Citations: 2

  8. THE SAUDI PERITONEAL DIALYSIS CATHETER: MODIFIED CATHETER AND NEW TECHNIQUE: FAREWELL TO CATHETER MIGRATION
    Authors: A. Alhwiesh, M. Nasreldin
    Journal: Nephrology Dialysis Transplantation, 31
    Year: 2016
    Citations: 2

  9. The influence of increased peritoneal membrane surface area on dialysis adequacy
    Authors: A. Alhwiesh, S. Esam, I. Saeed, M. Ahmmed, F. Almohana
    Journal: Saudi Journal of Kidney Diseases and Transplantation, 22(4), 717–722
    Year: 2011
    Citations: 2

LENA PATERAKI | Psychology | Best Researcher Award

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Dr. LENA PATERAKI | Psychology | Best Researcher Award

RESEARCH FELLOW from American College of Greece, Greece

Dr. Lena Pateraki is a distinguished academic and researcher in the field of psychology, with a career spanning over four decades. Her work is notable for its breadth, encompassing cognitive psychology, social cognition, moral judgment, neurocognition, and psycholinguistics. Having served as an Assistant Professor and later as the Head of the Psychology Department at Deree College in Athens, Greece, she is now a Research Fellow in the same institution. Throughout her career, Dr. Pateraki has demonstrated exceptional dedication to both research and education, consistently contributing to the scientific community through numerous publications, conference presentations, and collaborative projects. Her research is recognized internationally, and her work on bilingualism, cognitive processes in the deaf, moral disengagement, and emotional memory has made a meaningful impact. Her leadership experience within academia also highlights her ability to mentor students and promote research excellence. Dr. Pateraki’s ability to bridge theoretical frameworks with practical applications reflects her versatility and commitment to advancing psychology. She has maintained an active engagement with contemporary issues, continuously evolving her research interests to align with emerging psychological challenges. Her strong academic background, extensive research contributions, and leadership roles position her as an exemplary figure deserving of recognition and awards in the academic and research community.

Professional Profile

Education

Dr. Lena Pateraki has an impressive educational background that has laid a strong foundation for her research and academic career. She earned her Ph.D. in Cognitive Psychology from the University of Hull in England in February 1983. Her doctoral thesis, titled “Cerebral lateralization in the Deaf. A Bilingual Pattern?” focused on brain organization in bilingual and deaf populations, showcasing her early interest in cognitive and neuropsychological processes. Prior to her doctoral studies, she completed her Bachelor of Arts in Psychology at Deree College in Athens, Greece, graduating in June 1979. Her academic training has been multidisciplinary, integrating cognitive science, linguistics, and psychological assessment, which is reflected in the diverse range of topics she has explored throughout her career. Dr. Pateraki’s rigorous educational journey allowed her to build a strong theoretical and methodological understanding of psychology, which has continuously informed her research and teaching. Her early focus on experimental psychology during her time as a tutor at the University of Hull equipped her with critical research and analytical skills. This educational trajectory not only established her expertise but also fostered a lifelong commitment to academic excellence, research innovation, and mentorship of the next generation of psychology professionals.

Professional Experience

Dr. Lena Pateraki’s professional journey showcases her extensive and impactful career in psychology education and research. From 1988 to 2023, she served as an Assistant Professor of Psychology at Deree College, Athens, where she taught a wide array of courses including Introduction to Psychology, Perception, and Cognition. Her commitment to academic leadership was evident during her tenure as the Head of the Psychology Department from 2017 to 2023, where she was instrumental in curriculum development, departmental management, and fostering a research-oriented environment. In 2023, she transitioned to the role of Research Fellow at Deree College, dedicating herself more intensively to research activities. Earlier in her career, she taught Psychology of the Deaf at Marsalio School in Athens between 1984 and 1985. Her international experience includes her role as a Tutor in Experimental Psychology at the University of Hull from 1980 to 1983, further solidifying her research competencies. Dr. Pateraki’s professional experience reflects her dual commitment to both education and research. Her ability to sustain long-term academic engagements while contributing significantly to research underscores her passion for psychology and her value to the institutions she has been associated with.

Research Interests

Dr. Lena Pateraki’s research interests cover a wide and dynamic spectrum of psychological disciplines. She has a strong focus on moral judgment decisions, exploring how individuals make ethical choices and the cognitive processes underlying these decisions. Her interest in social cognition reflects her dedication to understanding how people perceive, interpret, and respond to social information. Additionally, Dr. Pateraki has conducted extensive work on memory and emotion, particularly how emotional factors influence memory formation and recall. Her areas of broader academic interest include neurocognition, examining the relationship between brain function and cognitive processes, as well as neuro-psychoanalysis, which integrates psychoanalytic theory with neuroscience. Psycholinguistics and the psychology of language are also central to her interests, highlighting her engagement with how language processing intersects with psychological functioning. In biopsychology, she investigates the biological underpinnings of behavior. Collectively, her research interests demonstrate her commitment to interdisciplinary approaches, blending cognitive psychology, neuroscience, linguistics, and social psychology to offer comprehensive insights into human behavior. This wide-ranging interest base has allowed her to address complex psychological questions with nuance and depth, making substantial contributions to both theoretical models and practical applications in psychology.

Research Skills

Dr. Lena Pateraki possesses a robust set of research skills that have contributed significantly to her long-standing academic success. Her methodological expertise spans experimental design, statistical analysis, and psychometric evaluation, particularly within cognitive and social psychology frameworks. She is adept in designing experiments that probe complex psychological phenomena, such as emotion recognition, memory recall under different cognitive loads, and moral judgment mechanisms. Her research frequently integrates qualitative and quantitative methods, allowing for comprehensive analysis and interpretation of psychological data. Dr. Pateraki has demonstrated skills in neuropsychological assessment and interpretation, which she applies in areas such as neurocognition and biopsychology. She also has considerable experience supervising dissertations, indicating her strength in mentoring students in research planning, data collection, and academic writing. Through her numerous publications, she has shown proficiency in scholarly writing, peer-reviewed publication standards, and interdisciplinary collaboration. Presentation skills are another asset, with frequent invitations to present papers at international conferences, often earning recognition and awards. Her ability to translate complex psychological concepts into accessible formats for diverse audiences further highlights her communication and dissemination skills. Dr. Pateraki’s research skill set positions her as a highly capable researcher who contributes both to scientific advancement and academic mentorship.

Awards and Honors

Throughout her career, Dr. Lena Pateraki has received notable recognition for her contributions to research and academia. Among her honors, a significant achievement includes winning the Best Video Presentation Award in Eye-Witness research at the 10th European Congress of Psychology held in Prague. This award reflects the quality and relevance of her research in the field of cognitive and forensic psychology. Her leadership roles, particularly as the Head of the Psychology Department at Deree College, further testify to the trust and esteem she commands in the academic community. Additionally, her participation in numerous prestigious international conferences as a paper presenter or poster contributor showcases the acknowledgment of her research work by the global academic community. Dr. Pateraki’s selection as a Research Fellow in 2023 also highlights institutional recognition of her continued dedication to advancing research in psychology. Her collaborative publications with internationally recognized researchers and participation in multi-country studies further cement her reputation as an influential figure in her field. Though more formal honors, such as national or international research medals, could enhance her accolades list, her consistent track record of high-quality contributions, academic leadership, and international engagement positions her as an accomplished and highly respected researcher.

Conclusion

Dr. Lena Pateraki’s academic journey and research contributions establish her as a distinguished and highly qualified candidate for prestigious research awards. Her sustained commitment to advancing psychological knowledge through teaching, research, and leadership is evident in her diverse portfolio of publications, conference presentations, and academic roles. She has demonstrated a lifelong dedication to interdisciplinary research, focusing on critical topics such as moral judgment, memory and emotion, and neurocognitive processes. Her ability to balance teaching excellence with active research involvement further underscores her versatility and commitment to academia. While there is an opportunity for her to enhance her profile with more high-impact recent publications and large-scale research grants, her overall record of achievements is exceptional. Dr. Pateraki’s career reflects not only scholarly excellence but also an enduring passion for the advancement of psychological science and education. Her broad expertise, strong mentorship record, and international research collaborations make her an outstanding role model for emerging researchers. In conclusion, Dr. Lena Pateraki is highly deserving of recognition through a Best Researcher Award for her remarkable contributions to psychological research, academic leadership, and dedication to fostering scientific inquiry and knowledge dissemination.

Publications Top Notes

  1. The role of disgust in homosexuality judgments
    Authors: Chrysanthi Nega, Lena Pateraki, N. Saranti, A. Pasia
    Year: 2016
    Citations: 2

 

 

Yi-Ping Huang | Pharmaceutical Science | Women Researcher Award

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Assoc. Prof. Dr. Yi-Ping Huang | Pharmaceutical Science | Women Researcher Award

Associate Professor from Department of Physiology, China Medical University, Taiwan

Yi-Ping Huang is an accomplished Associate Professor in the Department of Physiology at China Medical University, with over 32 years of experience in both teaching and research. His primary focus is on cancer treatment, specifically investigating the therapeutic effects of natural and synthetic compounds on cancer cells. Over the years, Huang has significantly contributed to the field, publishing numerous peer-reviewed articles and advancing the understanding of cancer treatment mechanisms, particularly apoptosis, DNA damage, and anti-metastasis pathways. His expertise extends to drug synergy, especially in combination with chemotherapy. He has also been involved in teaching innovations in physiology, emphasizing student engagement and educational research. Huang’s extensive research output and leadership in the field have made him a well-respected figure in the scientific community, as reflected in his numerous research projects and academic publications.

Professional Profile

Education

Yi-Ping Huang completed his undergraduate studies in Physiology at Yang-Ming University, laying the foundation for his extensive career in research and academia. His academic journey provided a strong base for his research into cancer treatment and physiological mechanisms. This solid educational background enabled Huang to develop expertise in a range of specialized topics, particularly in the therapeutic effects of natural compounds. Over the years, his continuous learning and commitment to his field have propelled his success, making him an established academic in the study of cancer therapy and physiology.

Professional Experience

Yi-Ping Huang has a long and distinguished career in both academia and research. As an Associate Professor at China Medical University, he has been instrumental in educating students and conducting cutting-edge research on cancer therapy. With over three decades of experience, Huang has led numerous research projects focusing on natural and synthetic compounds in cancer treatment. His role also includes teaching and mentoring students, guiding them in the latest scientific advancements. Huang’s professional experience is marked by extensive publications in high-impact journals, further showcasing his contributions to the scientific community and his leadership in advancing cancer research.

Research Interests

Yi-Ping Huang’s primary research interests revolve around the use of natural and synthetic compounds in cancer therapy. His work explores the mechanisms through which these compounds induce apoptosis, DNA damage, and inhibit metastasis in cancer cells. Huang is particularly focused on understanding how these compounds can synergize with chemotherapy drugs to overcome resistance and improve treatment outcomes. His ongoing research also investigates the therapeutic effects of compounds such as Demethoxycurcumin (DMC), Phenethyl Isothiocyanate (PEITC), and PW06 in various cancer types, including glioblastoma and colon cancer. These areas of interest align with his goal of advancing cancer therapy through the identification and development of novel therapeutic agents.

Research Skills

Yi-Ping Huang’s research skills are extensive and diverse, ranging from molecular biology techniques to cancer therapy research. He possesses a deep understanding of cancer cell biology, particularly in apoptosis, DNA repair, and metastasis inhibition. Huang has demonstrated proficiency in the use of various experimental models to study the effects of natural and synthetic compounds on cancer cells, including in vitro and in vivo models. His expertise extends to studying drug interactions and mechanisms of drug resistance, especially in relation to chemotherapy. Huang’s interdisciplinary approach to research, combining pharmacology, molecular biology, and cancer therapy, has led to groundbreaking studies that have contributed significantly to the field.

Awards and Honors

Throughout his illustrious career, Yi-Ping Huang has received numerous awards and honors that recognize his contributions to the scientific community. His groundbreaking research in cancer therapy, particularly in the use of natural and synthetic compounds, has earned him accolades from academic institutions and scientific organizations. Huang’s work on compounds such as Demethoxycurcumin and Phenethyl Isothiocyanate has been widely recognized in the field of oncology research. His consistent contributions to cancer treatment research and his leadership in academia have earned him recognition as a leading expert in his field, enhancing his reputation as an influential figure in cancer research.

Conclusion

Yi-Ping Huang’s career has been defined by significant contributions to cancer research, particularly in the development and understanding of natural and synthetic compounds as therapeutic agents. His research focuses on the molecular mechanisms of apoptosis, DNA damage, and anti-metastasis, offering potential for groundbreaking advancements in cancer treatment. With over three decades of experience, Huang’s work continues to influence both basic and clinical cancer research. His leadership in academia, coupled with his innovative research, positions him as a respected figure in the scientific community. As he continues to push the boundaries of cancer therapy, his contributions are likely to have a lasting impact on the field.

Publication Top Notes

M084 causes cell cycle arrest and inhibits voltage-gated Na⁺ and K⁺ channels in neuronal N2A cells
Authors: Iat Lon Leong, Chinmin Chuang, Chenghsun Wu, Yukman Leung, Yiping Huang
Year: 2025

2. MCU-i4, a mitochondrial Ca²⁺ uniporter modulator, induces breast cancer BT474 cell death by enhancing glycolysis, ATP production and reactive oxygen species (ROS) burst
Authors: Edmund Cheung So, Louis Wing Cheong Chow, Chinmin Chuang, Yukman Leung, Yiping Huang
Year: 2025

3. Physalin A induces apoptosis through conjugating with Fas-FADD cell death receptor in human oral squamous carcinoma cells and suppresses HSC-3 cell xenograft tumors in NOD/SCID mice
Authors: Fu Shin Chueh, Shengyao Hsu, Kuangchi Lai, Yiping Huang, Wen Tsong Hsieh
Year: 2025

4. PEITC Induces DNA Damage and Inhibits DNA Repair-Associated Proteins in Human Retinoblastoma Cells In Vitro
Authors: Shengyao Hsu, Yiping Huang, Techun Hsia, Fu Shin Chueh, Chaolin Kuo
Year: 2024

5. Armillaria mellea Mycelia Alleviate PM2.5-Induced Pulmonary Inflammation in Murine Models
Authors: Yiping Huang, Yutsen Huang, Huiyu Wu, Chinchu Chen, Chih Ho Lai
Year: 2024

6. RAGE participates in the intracellular transport of Campylobacter jejuni cytolethal distending toxin
Authors: Yufang Chang, Yiping Huang, Chiahuei Chou, Chenghsun Chiu, Chih Ho Lai
Year: 2024
Citations: 2

7. PW06 suppresses cancer cell metastasis in human pancreatic carcinoma MIA PaCa-2 cells via the inhibitions of p-Akt/mTOR/NF-κB and MMP2/MMP9 signaling pathways in vitro
Authors: Yiping Huang, Chunan Yeh, Yishih Ma, Jin Cherng Lien, Wen Tsong Hsieh
Year: 2024
Citations: 2

YUN ZHONG | Management and Accounting | Best Research Article Award

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Dr. YUN ZHONG | Management and Accounting | Best Research Article Award

Associate Professor from CHONGQING UNIVERSITY, China

Zhong Yun is an Associate Professor at the School of Management Science and Real Estate, Chongqing University, and Director of the Planning Center of Architectural Planning and Design Institute of Chongqing University. His academic and professional career spans a wide range of research areas, including project management, industrial planning, urban economy, and project investment and financing. Yun has worked extensively in urban renewal projects and consultations, focusing on the planning and development of key infrastructure projects in various regions of China. His contributions to the field are recognized by his involvement in multiple high-level advisory roles, including serving as a National Sponge City Pilot Assessment Expert and a member of the Chongqing Sponge City Construction Expert Committee. In addition, Yun has published numerous papers in prominent journals such as IEEE Transactions on Intelligent Transportation Systems and Energy and Buildings, establishing him as a key figure in his field. His professional experience and research influence span both academic research and practical urban development projects, reflecting his broad expertise in the integration of sustainability and economic development in urban planning.

Professional Profile

Education

Zhong Yun holds an academic background grounded in urban planning and project management, with a strong emphasis on sustainability and the economic impacts of construction projects. His formal education and research have contributed significantly to his professional path, with his knowledge evolving through both academic study and real-world applications. He has worked with experts across disciplines, integrating theory into practice, particularly in the development of urban infrastructure. Zhong’s educational qualifications, paired with his continuous involvement in research and consultancy, make him a respected figure in the academic community. The combination of his education and practical experiences ensures his ability to contribute valuable insights into the management of urban environments, infrastructure development, and environmental sustainability.

Professional Experience

Zhong Yun’s professional experience is diverse and influential, covering academic roles, research, consultancy, and advisory positions. As an Associate Professor at Chongqing University, he has significantly contributed to the academic environment, training future professionals and leading research on urban planning and sustainable development. He has also held several prominent roles in various urban development projects. Notably, Yun has been involved in the planning and consultation of large-scale infrastructure projects, such as the comprehensive pipe gallery and smart city development projects across multiple regions in China. His work has influenced various sectors, from industrial planning to environmental sustainability, where his input is essential in shaping development strategies. His extensive professional experience is complemented by his advisory roles, where he influences policies and strategies in urban and environmental development.

Research Interest

Zhong Yun’s research interests lie in the intersection of urban development, sustainability, and infrastructure management. Specifically, his work focuses on project management, industrial planning, urban economy, and project investment and financing. Yun has explored the application of spatial machine learning in evaluating urban infrastructure, particularly focusing on environmental sustainability, energy efficiency, and resource management. His research also delves into the role of renewable energy adoption in residential sectors and transportation infrastructure performance. Yun’s expertise extends to understanding the socio-economic impacts of urban development and creating models that balance environmental, economic, and social factors in urban planning. His work in the sponge city initiative and smart city planning further highlights his commitment to building sustainable and resilient urban environments.

Research Skills

Zhong Yun’s research skills encompass a broad array of methodologies and tools, enabling him to approach urban planning and sustainability challenges from diverse angles. He is skilled in spatial data analysis, machine learning, and geographical information systems (GIS), which are integral to his research on infrastructure evaluation and environmental sustainability. Additionally, Yun possesses expertise in data-driven models, such as spatio-temporally stratified heterogeneity models, which he uses to study carbon emissions and other urban environmental factors. His interdisciplinary approach also incorporates aspects of industrial planning and economic modeling, ensuring that his research addresses the real-world challenges faced by urban developers and policymakers. Yun’s ability to apply these advanced skills to large-scale urban projects further underscores the practical relevance of his research in shaping sustainable cities.

Awards and Honors

Zhong Yun has received numerous awards and honors for his exceptional contributions to research and urban development. Notably, he has been recognized as a National Sponge City Pilot Assessment Expert, a member of the Chongqing Sponge City Construction Expert Committee, and an expert on underground comprehensive pipe galleries. His academic achievements are further highlighted by his recognition in various professional domains, such as his leadership roles in planning and consulting urban projects across China. Yun’s ability to integrate sustainability with urban development has earned him high-level accolades, including his significant contributions to projects focused on ecological transformation, green transportation, and urban renewal. These honors reflect his leadership and the practical impact of his work in the field of urban planning and development.

Conclusion

Zhong Yun’s work combines the academic rigor of a researcher with the practical insight of an urban planner. His extensive research in the fields of urban economy, project management, and sustainability has made significant contributions to the development of smart, sustainable cities. Yun’s ability to integrate new technologies, such as machine learning, with urban planning principles has led to innovative solutions in evaluating infrastructure performance and promoting environmental sustainability. His ongoing research projects, combined with his expertise in consulting, ensure that his work continues to shape urban development strategies and policies both in China and internationally. Zhong Yun’s balanced approach between research and real-world application positions him as a highly influential figure in the field of urban planning and sustainability.

Publications Top Notes

  1. Large Scale Pavement Crack Evaluation Through a Novel Spatial Machine Learning Approach Considering Geocomplexity
    Authors: Chunjiang Chen, Yongze Song, Ammar Shemery, Yun Zhong, Wu Peng
    Year: 2024
    Citations: 1