Keming Zhang | Materials Science | Breakthrough Research Award

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Dr. Keming Zhang | Materials Science | Breakthrough Research Award

Shanghai for Science and Technology, China

Keming Zhang is an Associate Professor at the School of Mechanical Engineering, University of Shanghai for Science and Technology. With a solid academic background and more than a decade of experience in engineering mechanics and experimental mechanics, he has emerged as a capable researcher in the area of residual stress measurement and deformation analysis techniques. His work demonstrates a deep engagement with the development and refinement of measurement systems and digital image processing methods under complex physical conditions. Dr. Zhang has authored and co-authored multiple research articles published in internationally recognized journals and has contributed to several high-value patents related to stress testing and 3D imaging technologies. His collaborative project with the Commercial Aircraft Corporation of China (COMAC) reflects his capacity to translate scientific knowledge into real-world industrial applications. Known for his systematic and innovative approach, he has also delivered invited talks and earned national awards for academic excellence. Although he has not yet secured national-level funding, his contributions to instrumentation and applied research have made a notable impact in his field. His research continues to support advancements in aerospace testing, smart materials evaluation, and digital measurement systems. Dr. Zhang is regarded as a valuable contributor to China’s applied mechanics research landscape.

Professional Profile

Education

Keming Zhang holds a Ph.D. in Mechanics from Shanghai Jiao Tong University, completed in 2016. His doctoral training provided a strong foundation in theoretical and experimental mechanics, preparing him for independent research in stress analysis and structural evaluation. Prior to his Ph.D., he earned a Master’s degree in Solid Mechanics in 2007 from the University of Science and Technology Beijing, conducted in collaboration with the Institute of Mechanics at the Chinese Academy of Sciences, which further enriched his theoretical understanding of material behavior and structural dynamics. His academic journey began with a Bachelor’s degree in Engineering Mechanics from Shenyang Aerospace University, awarded in 2005. This progressive academic trajectory reflects his long-standing commitment to mastering the core principles of mechanical engineering and applying them to practical research challenges. His education is rooted in institutions known for their rigor and emphasis on engineering innovation, and his exposure to interdisciplinary mechanical studies has allowed him to develop expertise in residual stress measurement, advanced materials testing, and digital deformation analysis. These qualifications collectively form the basis for his work in applied mechanics, preparing him well for both academic roles and industry collaborations.

Professional Experience

Dr. Keming Zhang has accumulated extensive academic and research experience across several prominent institutions in China. Since June 2021, he has served as an Associate Professor in the School of Mechanical Engineering at the University of Shanghai for Science and Technology. Prior to this, he worked as a Lecturer at the same institution from October 2019 to May 2021. Between 2016 and 2019, Dr. Zhang held a position as Assistant Researcher at the Shanghai Institute of Technical Physics, Chinese Academy of Sciences, where he worked on advanced optical and mechanical systems. Earlier in his career, he served as Lecturer (2009–2012) and Teaching Assistant (2007–2009) in the Department of Materials Engineering at Nanchang Hangkong University. These academic roles have allowed him to gain experience in teaching, supervising student research, and contributing to lab-based experimental studies. Although he has not undertaken formal postdoctoral work, his career path reflects steady progression from foundational teaching roles to high-level independent research. His participation in applied projects, such as those commissioned by COMAC, highlights his ability to contribute to both the academic and industrial sectors. Overall, Dr. Zhang’s professional trajectory is marked by versatility, technical depth, and growing leadership in mechanical research.

Research Interests

Dr. Keming Zhang’s research primarily focuses on experimental mechanics, with a particular emphasis on residual stress measurement, digital image correlation (DIC), and advanced deformation analysis techniques under non-standard environments. His interest lies in understanding the mechanical behavior of composite and metallic materials, particularly in aerospace and structural applications, using precise optical and computational methods. One of his core research themes involves improving the accuracy and reliability of the incremental hole-drilling method for residual stress determination, as demonstrated in his recent publications. He also works on the development of luminescent speckle techniques and 3D reconstruction methods tailored for low-light or complex surface conditions. His research spans the theoretical modeling and practical design of measurement systems, especially those applicable to the aerospace and manufacturing industries. Dr. Zhang aims to bridge the gap between traditional material testing methods and modern, high-resolution imaging and analysis tools. He is particularly motivated by real-world engineering problems, leading him to pursue research projects in collaboration with industrial partners. Overall, his work contributes to safer, more accurate mechanical assessment technologies, supporting innovations in both academic research and industry implementation.

Research Skills

Dr. Zhang possesses a well-rounded and sophisticated skill set in experimental mechanics and engineering measurement systems. He is highly proficient in residual stress analysis techniques, particularly the incremental hole-drilling method, which he has refined through theoretical modeling and practical calibration. His capabilities also extend to digital image correlation (DIC), luminescent imaging in dark environments, adaptive phase error correction, and 3D surface reconstruction. These skills are reinforced by his hands-on experience in hardware-software integration for custom measurement systems. His applied research frequently involves developing and testing new methodologies under real-world constraints, such as temperature variability or lack of lighting, and his patents showcase his strength in innovation and system design. Dr. Zhang is also competent in finite element modeling for validation and simulation purposes and has experience collaborating on cross-disciplinary teams in both academic and industry projects. His strong foundation in solid mechanics and engineering physics enables him to link theoretical principles with empirical measurements effectively. Furthermore, his academic writing and publication record suggest strong analytical thinking and technical communication skills. Altogether, his research competencies reflect an ability to design, execute, and evaluate sophisticated mechanical testing procedures with precision and industrial relevance.

Awards and Honors

Dr. Zhang has received several notable recognitions for his research contributions. His earliest accolade dates back to 2007, when he was awarded for an excellent student paper at the 6th China International Nano Technology Symposium, reflecting early promise in interdisciplinary scientific research. In 2016, he received a “Youth Excellent Paper” award from the National Committee on Experimental Mechanics at a nationwide mechanics conference, underscoring his growing reputation in the field. He has been invited to deliver talks at national academic conferences, such as the 16th National Conference on Experimental Mechanics in 2021, where he presented on residual stress testing methods. In addition to academic awards, Dr. Zhang is an inventor on multiple patents granted in China between 2021 and 2024. These include patents related to luminescent speckle techniques, digital imaging error compensation, and advanced stress measurement apparatus. These recognitions demonstrate his dual strengths in theoretical development and practical innovation. His awards from both academic societies and industrial patent offices validate his contributions to both basic and applied research. Although he has not yet received major national funding, his honors reflect consistent acknowledgment of the significance and quality of his work by peers and industry stakeholders alike.

Conclusion

Keming Zhang is a technically capable and industrious researcher whose expertise lies at the intersection of experimental mechanics, optical measurement, and applied instrumentation. Through consistent publication, patenting activity, and industrial collaboration, he has demonstrated the ability to convert complex research concepts into tangible technological solutions. His research addresses practical challenges in the aerospace and manufacturing industries, especially in stress analysis and deformation measurement. While his lack of postdoctoral experience and national-level research funding could be viewed as limitations for top-tier competitive awards, his work’s precision, applicability, and methodological innovation speak strongly in his favor. His role as a sole first author or corresponding author on multiple journal papers, along with his leadership in applied projects and system design, highlight his independence and technical leadership. Dr. Zhang’s research is likely to continue contributing to incremental but impactful advances in mechanical measurement and smart sensing technologies. With broader engagement in international collaborations and increased visibility through national funding programs, he could further strengthen his academic profile. In conclusion, while not yet a breakthrough-level figure in terms of disruptive innovation, Dr. Zhang represents a solid, promising researcher whose applied contributions merit recognition and continued support.

Publication Top Notes

  1. Title: Outlier removal method for the refinement of optically measured displacement field based on critical factor least squares and subdomain division
    Journal: Measurement Science and Technology
    Date: 2022-05-01
    DOI: 10.1088/1361-6501/ac476c
    Contributors: Keming Zhang

  2. Title: A Comparative Study of Fatigue Energy Dissipation of Additive Manufactured and Cast AlSi10Mg Alloy
    Journal: Metals
    Date: 2021-08-12
    DOI: 10.3390/met11081274
    Contributors: Chunxia Yang, Ke Zhu, Yayan Liu, Yusheng Cai, Wencheng Liu, Keming Zhang, Jia Huang

  3. Title: A mixed stabilized finite element formulation for finite deformation of a poroelastic solid saturated with a compressible fluid
    Journal: Archive of Applied Mechanics
    Date: 2020-05
    DOI: 10.1007/s00419-020-01658-7
    Contributors: Keming Zhang

  4. Title: New insights into Fourier analysis on plane and convex holographic gratings for imaging spectrometers
    Conference: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies: Meta-Surface-Wave and Planar Optics
    Date: 2019
    Contributors: Keming Zhang

  5. Title: On the effective stress law and its application to finite deformation problems in a poroelastic solid
    Journal: International Journal of Mechanical Sciences
    Date: 2019-10
    DOI: 10.1016/j.ijmecsci.2019.105074
    Contributors: Keming Zhang

  6. Title: Enhancement of the absorption and bandwidth of a hybrid metamaterial absorber
    Journal: Results in Physics
    Date: 2019-09
    DOI: 10.1016/j.rinp.2019.102412
    Contributors: Keming Zhang

  7. Title: Design and numerical simulations of a temperature tunable hybrid structure metamaterials
    Journal: Journal of Nanophotonics
    Date: 2019-09-18
    DOI: 10.1117/1.jnp.13.036019
    Contributors: Keming Zhang

  8. Title: Numerical verification of absorption enhancement based on metal array embedded metamaterials
    Journal: Materials Express
    Date: 2019-06-01
    DOI: 10.1166/mex.2019.1492
    Contributors: Keming Zhang

  9. Title: Residual stress release characteristics of hole-drilling determined by in-plane three-directional optical interference moiré
    Journal: Journal of Modern Optics
    Date: 2018-12-15
    DOI: 10.1080/09500340.2018.1506519
    Contributors: Keming Zhang, Yong Li, Min Xu, Youlong Ke

  10. Title: General Calibration Formulas for Incremental Hole Drilling Optical Measurement
    Journal: Experimental Techniques
    Date: 2017
    DOI: 10.1007/s40799-016-0008-x
    Contributors: Zhang, K.; Yuan, M.; Chen, J.

Akbar Heydari | Chemistry | Best Researcher Award

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Prof. Akbar Heydari | Chemistry | Best Researcher Award

corresponding author from Tarbiat Modares University, Iran .

Professor Akbar Heydari is a distinguished academic in organic chemistry at Tarbiat Modares University, Tehran, Iran. He earned his B.Sc. in Chemistry from Kharazmi University (1987), M.Sc. from the University of Tehran (1989), and Ph.D. from Justus Liebig University, Giessen, Germany (1994). Since 1994, he has been a faculty member in the Department of Organic Chemistry at Tarbiat Modares University. His research focuses on the synthesis of organic and organometallic catalysts, nanochemistry, and the development of green catalytic systems. He has received prestigious awards from the Volkswagen Stiftung, DAAD Stiftung, and Alexander von Humboldt Stiftung, reflecting his significant contributions to the field.

Professional Profile

Education

Professor Heydari completed his B.Sc. in Chemistry at Kharazmi University (1987), followed by an M.Sc. in Chemistry from the University of Tehran (1989). He pursued his Ph.D. at Justus Liebig University, Giessen, Germany, graduating in 1994 with a dissertation on “LiClO₄-Diethylether als Reaktionsmedium in der organischen Chemie.” His doctoral research focused on the use of lithium perchlorate in diethyl ether as a reaction medium in organic chemistry. Since 1994, he has been a faculty member in the Department of Organic Chemistry at Tarbiat Modares University, where he has contributed to both undergraduate and graduate education, supervising numerous theses and fostering a research-driven academic environment.

Professional Experience

Since 1994, Professor Heydari has served as a faculty member in the Department of Organic Chemistry at Tarbiat Modares University, Tehran, Iran. His academic career encompasses teaching undergraduate and graduate courses in organic chemistry, industrial organic chemistry, and the synthesis of organic materials. He has supervised numerous M.Sc. and Ph.D. students, guiding research projects that explore sustainable and efficient catalytic systems. His professional experience extends to collaborative research with international institutions, contributing to advancements in nanocatalysis, green chemistry, and the development of novel catalytic processes. His work has led to the publication of over 200 research articles, reflecting his extensive experience and commitment to advancing the field of organic chemistry.

Research Interests

Professor Heydari’s research primarily focuses on the development of green and sustainable catalytic systems in organic chemistry. He specializes in the synthesis of organic and organometallic catalysts, with an emphasis on nanochemistry and the application of deep eutectic solvents. His work involves the design of magnetic nanocatalysts and metal-organic frameworks (MOFs) for various reactions, including oxidative amidation, carbon-carbon bond formation, and functionalization of organic compounds. He also investigates the use of ionic liquids and recyclable catalysts in one-pot synthesis reactions. Through his interdisciplinary approach, Professor Heydari aims to address environmental challenges in chemical processes by developing efficient, recyclable, and sustainable catalytic systems.

Research Skills

Professor Heydari possesses advanced expertise in designing and synthesizing organic and organometallic catalysts, with a strong emphasis on nanochemistry. He is proficient in developing green catalytic systems, utilizing deep eutectic solvents, and employing sustainable methodologies for organic synthesis. His research integrates various techniques, including molecular docking and density functional theory (DFT) studies, to understand reaction mechanisms and optimize catalytic processes. Additionally, he has experience in the synthesis and characterization of metal-organic frameworks (MOFs) and magnetic nanocatalysts, applying them in diverse reactions such as oxidative amidation and carbon-carbon bond formation. His interdisciplinary approach combines theoretical and practical aspects of chemistry to address environmental and efficiency challenges in catalysis.

Awards and Honors

Professor Heydari has been recognized with several prestigious awards throughout his career. He received the Research Award from the Volkswagen Stiftung, acknowledging his significant contributions to chemical research. Additionally, he was honored by the DAAD Stiftung, reflecting his excellence in academic and research endeavors. The Alexander von Humboldt Stiftung also recognized his work, underscoring his international impact in the field of organic chemistry. These accolades highlight his dedication to advancing chemical sciences and his commitment to sustainable and innovative research practices. His achievements have established him as a leading figure in the development of green catalytic systems and nanochemistry.

Conclusion

Suitable for Nomination: YES ✅
Dr. Heydari meets and exceeds several core criteria for the Research for Best Researcher Award, particularly in:

  • Originality,

  • Publication quality,

  • Societal relevance,

  • Alignment with sustainability goals.

Publications Top Notes

  • Title: Magnetic N-doped CNT stabilized Cu₂O as a catalyst for N-arylation of nitriles and aryl halides in a biocompatible deep eutectic solvent
    Authors: M. Alizadeh, A. Salamatmanesh, M.J. Nejad, A. Heydari
    Journal: RSC Advances
    Year: 2025
    Volume: 15
    Issue: 11
    Pages: 8195–8206
    Cited by: Not yet citedModares University

  • Title: Visible Light-Mediated Four-Component Synthesis of Polyfunctionalized Pyrroles Using Eosin-Y via the HAT Process
    Authors: F. Ahmadi, M. Shariatipour, M.J. Nejad, A. Heydari
    Journal: Journal of Photochemistry and Photobiology A: Chemistry
    Year: 2024
    Volume: 457
    Article No.: 115863
    Cited by: 1

  • Title: Magnetic Metal-Organic Framework (MOF) as an Effective Photocatalyst for Synthesis of Quinazolinones under Oxidation and Visible-Light Conditions
    Authors: M. Alizadeh, M.J. Nejad, A. Heydari
    Journal: Research on Chemical Intermediates
    Year: 2024
    Volume: 50
    Issue: 9
    Pages: 4085–4104
    Cited by: 1

  • Title: Oxidative Amidation of Aldehydes with Amine in a Mixture of Choline Chloride and Aluminium Nitrate as Oxidant and Solvent
    Authors: M. Jafari, A. Darvishi, A. Heydari
    Journal: Tetrahedron
    Year: 2024
    Volume: 158
    Article No.: 133987
    Cited by: 1Ecopersia+2AD Scientific Index+2Modares University+2

  • Title: Modified Nano Magnetic Fe₂O₃-MgO as a High Active Multifunctional Heterogeneous Catalyst for Environmentally Beneficial Carbon-Carbon Synthesis
    Authors: E. Kamali, F. Dreekvandy, A. Mohammadkhani, A. Heydari
    Journal: BMC Chemistry
    Year: 2024
    Volume: 18
    Issue: 1
    Article No.: 78
    Cited by: 3

  • Title: Determination of Biodiesel Yield and Color After Purification Process Using Deep Eutectic Solvent (Choline Chloride: Ethylene Glycol)
    Authors: M. Khanian-Najaf-Abadi, B. Ghobadian, M. Dehghani-Soufi, A. Heydari
    Journal: Biomass Conversion and Biorefinery
    Year: 2024
    Volume: 14
    Issue: 7
    Pages: 8469–8481
    Cited by: 3

  • Title: Modified Nano Magnetic Fe
    Authors: E. Kamali, F. Dreekvandy, A. Mohammadkhani, A. Heydari
    Journal: BMC Chemistry
    Year: 2024
    Volume: 18
    Issue: 1
    Article No.: 78
    Cited by: 3

  • Title: Synthesis and Characterization of a Green and Recyclable Arginine-Based Palladium/CoFe₂O₄ Nanomagnetic Catalyst for Efficient Cyanation of Aryl Halides
    Authors: S. HajimohamadzadehTorkambour, M.J. Nejad, F. Pazoki, F. Karimi, A. Heydari
    Journal: RSC Advances
    Year: 2024
    Volume: 14
    Issue: 20
    Pages: 14139–14151
    Cited by: 5

  • Title: Synthesis of a New 1,2,3-Triazoles Scaffold Using a Heterogeneous Multifunctional Copper Photocatalyst for In Vitro Investigation via Click Reaction
    Authors: A. Mohammadkhani, S. Hosseini, S.A. Pourmousavi, A. Heydari, M. Mahdavi
    Journal: Catalysis Science & Technology
    Year: 2024
    Volume: 14
    Issue: 11
    Pages: 3086–3097
    Cited by: Not yet citedModares University+1Modares University+1

  • Title: Basic Dimensions Affecting the Defense of Middle East Countries
    Authors: M. Zangoei Dovom, M. Janparvar, A. Heydari, A. Mohamadpour

Kindye Belaye Wassie | Biological Sciences | Best Researcher Award

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Mr. Kindye Belaye Wassie | Biological Sciences | Best Researcher Award

LECTURER from Bahir Dar University, Ethiopia

Kindye Belaye Wassie is an Ethiopian plant scientist specializing in forest biodiversity and ecosystem resilience. Currently a lecturer and researcher at Bahir Dar University’s Department of Plant Sciences, he has contributed to the understanding of how diverse biological systems interact within forest environments. With a focus on enhancing conservation and management strategies, his research aims to secure the long-term sustainability of these critical ecosystems. Kindye has published several peer-reviewed articles in international journals, covering topics such as woody species composition, ethnobotanical knowledge of wild edible plants, and the regeneration status of local forests. His academic work is complemented by practical community service research, such as nutrient profiling and minimum tillage demonstrations. Through teaching undergraduate courses and guiding students, Kindye plays a vital role in shaping the next generation of plant scientists. His ongoing projects reflect a commitment to addressing both scientific and practical challenges in Ethiopian forestry and plant science. Though still in the earlier stages of his research career, his dedication, technical expertise, and publication record position him as a promising figure in the field.

Professional Profile

Education

Kindye Belaye Wassie completed his Bachelor of Science degree in Applied Biology at Debre Tabor University, Ethiopia, from 2011 to 2014. Building on this foundation, he pursued a Master of Science degree in Biology, with a specialization in Botanical Sciences, at Bahir Dar University, where he graduated in 2019. His educational path reflects a strong focus on plant biology, taxonomy, and ecological systems, providing him with the scientific grounding necessary for his research on forest ecosystems. Through his formal academic training, Kindye gained essential knowledge of biological principles, laboratory methods, plant ecology, and data analysis techniques. These degrees have prepared him not only for research roles but also for university-level teaching. His educational progression shows a steady commitment to advancing his expertise in botanical sciences and positions him well for doctoral-level research or more advanced academic roles in the future. With his combination of foundational biological training and specialized botanical studies, Kindye has built the expertise needed to investigate critical issues related to biodiversity, conservation, and the resilience of forest ecosystems.

Professional Experience

Kindye Belaye Wassie has accumulated a decade of professional experience in both academic support and research roles. From September 2014 to October 2022, he served as Chief Laboratory Assistant at the Department of Biology, Debre Tabor University. In this role, he developed strong technical expertise in biological laboratory operations, supporting research projects and educational activities. Since November 2022, he has been a lecturer and researcher at Bahir Dar University, where he teaches undergraduate courses in plant taxonomy, plant ecology, plant morphology and anatomy, ethnobotany, and plant physiology. His teaching duties are complemented by an active research agenda focusing on forest biodiversity, conservation, and ecosystem resilience. In addition to academic teaching and research, Kindye engages in community service research projects, such as demonstrating minimum tillage techniques for local farmers. His professional experience reflects a balanced combination of laboratory management, classroom teaching, fieldwork, and scholarly research, which together build a strong foundation for his future academic and research career.

Research Interest

Kindye Belaye Wassie’s primary research interest lies in understanding how forest biodiversity influences the function and resilience of forest ecosystems. He aims to integrate various biological groupings into unified frameworks that inform conservation and sustainable management practices. His work seeks to address critical challenges such as species composition changes, regeneration status, and ecosystem responses to environmental pressures. By focusing on biodiversity, Kindye’s research contributes to the development of conservation strategies that help preserve the ecological integrity and long-term viability of Ethiopian forests. In addition to ecological studies, he explores ethnobotanical knowledge, examining how local communities use wild edible plants and the cultural significance of plant resources. His research encompasses both theoretical and applied dimensions, linking scientific understanding with real-world conservation and resource management challenges. Ultimately, Kindye’s research interest reflects a commitment to advancing knowledge that supports both biodiversity preservation and community well-being in ecologically sensitive regions.

Research Skills

Kindye Belaye Wassie possesses a wide range of research skills that enhance his capacity as a plant scientist. He is proficient in biological laboratory techniques, including plant identification, vegetation data collection, culturing fungal pathogens, and conducting microbiology assays such as media preparation and bacterial culturing. His data analysis skills include using statistical software such as SPSS and R programming, allowing him to handle quantitative ecological and ethnobotanical data effectively. In the field, he has experience designing and implementing ecological surveys, assessing species composition, and evaluating regeneration status in forest areas. Kindye also has expertise in phytochemical screening, nutrient profiling, and soil quality assessments, which are critical for applied research projects focused on ecosystem rehabilitation. His communication and interpersonal skills support his ability to collaborate with colleagues, engage with local communities, and present findings at conferences. Collectively, these research skills position him to conduct robust, multi-faceted studies that integrate laboratory, field, and analytical approaches in the service of conservation and ecological research.

Awards and Honors

While Kindye Belaye Wassie has not yet received major research awards, he has earned certificates for presenting his work at both national and international conferences. These recognitions reflect his engagement with the broader scientific community and his willingness to share and discuss his research findings. Participation in academic conferences provides valuable opportunities for networking, feedback, and professional development. Although the award record is still developing, his growing publication list and active research projects indicate the potential for future recognition as his career progresses. Strengthening his awards portfolio by applying for research grants, early-career fellowships, or conservation prizes would further enhance his academic profile. Overall, his current honors and conference participation highlight his commitment to scholarly engagement and his emerging presence in the field of plant science and forest ecology research.

Conclusion

Kindye Belaye Wassie demonstrates solid potential as a researcher in plant sciences, with a particular focus on biodiversity, conservation, and ethnobotanical knowledge. His educational background, professional experience, and research outputs position him well within the Ethiopian academic landscape, and his recent publications show a clear commitment to advancing scientific understanding of forest ecosystems. While his profile is still in the early to mid stages of development, especially regarding high-impact publications, international collaborations, and major research awards, he shows promise as an emerging scholar. To strengthen his candidacy for high-level research awards, he may benefit from expanding his international research network, pursuing larger collaborative projects, and seeking leadership roles in grant-funded initiatives. Overall, Kindye’s combination of scientific expertise, teaching contributions, and applied research efforts makes him a valuable contributor to the field, and with continued professional growth, he has the potential to achieve broader research impact and recognition in the future.

Publications Top Notes

  1. Title: Ethnobotanical Study of Wild-Edible Plants in Simada District, South Gondar Zone, Amhara Region, Ethiopia
    Journal: Ethnobiology Letters
    Publication Date:Authors: Kindye Belaye Wassie2024-12-26
    Authors: Kindye Belaye Wassie

  2. Title: Woody species composition, structure and regeneration status of Alka forest Beyeda District, North Gondar Zone, Amhara Region, Northern Ethiopia
    Journal: BMC Plant Biology
    Publication Date: 2024- 11- 21 DOI: 10.1186/ s12870- 024- 05822- x Authors: Kindye Belaye Wassie; Getnet Chekole W2024-11-21
    DOI: 10.1186/s12870-024-05822-x
    Authors: Kindye Belaye Wassie; Getnet Chekole Walle; Assefa Tasew Alemnew

  3. Title: Ethnobotanical Study of Wild Edible Plants and Their Indigenous Knowledge in Sedie Muja District, South Gondar Zone, Northwestern Ethiopia
    Journal: American Journal of Plant Sciences
    Publication Date: 2022-02-23
    Authors: Kindye Belaye Wassie

Hui-Qiang Wei | Medicine and Dentistry | Young Researcher Award

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Dr. Hui-Qiang Wei | Medicine and Dentistry | Young Researcher Award

Guangdong Cardiovascular Institute, China

Dr. Hui-Qiang Wei is a dedicated clinical researcher and medical doctor specializing in cardiac electrophysiology. Currently affiliated with the Arrhythmia Center at the Guangdong Cardiovascular Institute, Guangdong Provincial People’s Hospital, and Southern Medical University in Guangzhou, China, Dr. Wei has built a focused and impactful career in the management and ablation of complex cardiac arrhythmias. Born in June 1990, he has steadily advanced through rigorous academic and clinical training in cardiology, with specific attention to electrophysiological interventions. Dr. Wei’s work spans both academic research and clinical practice, with a strong emphasis on catheter ablation techniques, including those involving atrial fibrillation, supraventricular tachycardias, and ventricular arrhythmias. He has contributed to multiple peer-reviewed publications in high-impact journals, and his findings have improved the understanding and procedural outcomes of cryoballoon and substrate-based ablation methods. Additionally, Dr. Wei has engaged in international collaboration through observership at the University of Pennsylvania, further enriching his perspective and methodology. His dedication to electrophysiology, growing publication record, and translational clinical research make him an emerging leader in the field. With both depth and breadth of experience, Dr. Wei exemplifies the qualities of a promising young researcher and is well-suited for consideration in prestigious research awards.

Professional Profile

Education

Dr. Hui-Qiang Wei’s educational background is firmly rooted in the cardiovascular sciences, with a particular focus on electrophysiology. He began his medical education at Southern Medical University in Guangzhou, China, where he earned his M.D. in 2013. Demonstrating an early interest in cardiology, he continued with a Master’s degree in Electrophysiology from the Guangdong Cardiovascular Institute under the mentorship of Professor Silin Chen, completing the program in 2016. Furthering his specialization, Dr. Wei pursued his Ph.D. at Fuwai Hospital, a premier cardiovascular center in Beijing, under the guidance of Professor Jian Ma. He completed his doctoral degree in 2019, focusing on advanced electrophysiological diagnostics and interventions. His academic journey has been marked by consistency, a commitment to specialization, and mentorship under leading figures in Chinese cardiovascular medicine. Additionally, he broadened his academic exposure with a visiting observership at the Hospital of the University of Pennsylvania in 2018, where he gained valuable insights into global standards in arrhythmia management and research methodology. Dr. Wei’s education has provided him with a strong theoretical foundation, clinical training, and exposure to both national and international best practices in cardiac electrophysiology.

Professional Experience

Dr. Hui-Qiang Wei has cultivated a professional career that seamlessly integrates clinical excellence with high-quality research in cardiac electrophysiology. Since 2019, he has been a part of the Guangdong Cardiovascular Institute at Guangdong Provincial People’s Hospital, a prominent center for cardiovascular care and research. In his current role at the Arrhythmia Center, he is actively engaged in both clinical procedures and research initiatives, particularly focusing on catheter-based interventions for complex arrhythmias. Prior to this position, he completed significant training and clinical work during his master’s and doctoral programs, contributing to studies in ablation therapy under the mentorship of renowned electrophysiologists. His brief but impactful time as a visiting observer at the Hospital of the University of Pennsylvania in 2018 allowed him to observe state-of-the-art procedures and academic protocols at a world-class institution. Throughout his career, Dr. Wei has performed numerous complex arrhythmia interventions and has collaborated on multi-center studies examining the efficacy and safety of various ablation technologies. His practical experience has been reinforced by continuous involvement in academic writing and presentations, bridging the gap between clinical innovation and scholarly contribution. This dual focus on practice and research underscores his professional strength and growth trajectory in cardiac electrophysiology.

Research Interest

Dr. Hui-Qiang Wei’s primary research interest lies in the field of cardiac electrophysiology, with a specialized focus on the diagnosis and interventional management of complex cardiac arrhythmias. His research has primarily explored catheter ablation techniques, including pulmonary vein isolation, ventricular tachycardia ablation, and the use of cryoballoon ablation in varied anatomical and clinical contexts. Dr. Wei is particularly interested in understanding the electrophysiological characteristics of arrhythmogenic substrates and developing strategies to improve the precision and safety of ablation therapies. His work investigates both traditional and emerging technologies, such as second-generation cryoballoon catheters, and their application in clinical and experimental settings. Additionally, he has contributed to comparative studies assessing different ablation strategies for left posterior fascicular ventricular tachycardia, and has examined long-term outcomes in substrate-based interventions. The translational nature of his research—applying physiological insights to improve procedural outcomes—marks a significant contribution to the field. Dr. Wei’s continued interest in refining ablation protocols and identifying predictors of arrhythmia recurrence aligns with global efforts to enhance the effectiveness of interventional electrophysiology and reduce procedural risks for patients.

Research Skills

Dr. Hui-Qiang Wei possesses a wide range of research skills that support his work as a clinical scientist in the domain of cardiac electrophysiology. He is proficient in designing and executing both clinical and experimental studies, including prospective and retrospective data analyses focused on catheter ablation outcomes. His experience includes electrophysiological mapping, real-time potential recording, and advanced imaging techniques used to guide and evaluate ablation procedures. Dr. Wei has also demonstrated competence in using animal models to investigate the safety and efficacy of ablation tools, as evidenced by his co-authored study on cryoballoon ablation in a canine model. His familiarity with statistical analysis and medical software allows him to handle complex datasets, ensuring the reliability and validity of his findings. Furthermore, his involvement in multi-center studies and collaborations with prominent researchers, such as Dr. Jian Ma and Dr. Jackson J. Liang, reflects his ability to work within diverse research teams. Dr. Wei is adept at translating clinical observations into research hypotheses and subsequently testing them through structured protocols. His clear scientific writing, ability to present findings at international conferences, and continuous engagement in peer-reviewed publication demonstrate strong communication and dissemination skills essential for academic medicine.

Awards and Honors

While no specific individual awards have been listed in the provided data, Dr. Hui-Qiang Wei’s professional trajectory reflects recognition through academic appointments, publication credits, and invited presentations that signal growing acknowledgment within the scientific and clinical community. Notably, he was selected for an oral presentation at the Asia Pacific Heart Rhythm Society (APHRS) 2017 conference, which is a respected forum for cardiac electrophysiologists in the Asia-Pacific region. His collaborative work has been published in leading cardiology journals such as Heart Rhythm, Europace, and Journal of Cardiovascular Electrophysiology, indicating the high quality and relevance of his research. Being first author or co-author on such impactful studies suggests trust and esteem from his mentors and research collaborators. His visiting observer role at the Hospital of the University of Pennsylvania also highlights academic merit, as such opportunities are typically offered to promising researchers with demonstrable academic potential. Although explicit awards or honors are not detailed, Dr. Wei’s academic output and the caliber of his institutional affiliations imply ongoing professional recognition and the potential for future accolades in his field.

Conclusion

Dr. Hui-Qiang Wei exemplifies the qualities of a dedicated and capable young researcher whose contributions to cardiac electrophysiology are both meaningful and steadily expanding. His focused academic background, hands-on clinical experience, and a growing portfolio of peer-reviewed publications position him as an emerging leader in arrhythmia research and intervention. He demonstrates a clear understanding of current challenges in the field and actively works toward improving procedural safety and efficacy through data-driven methods. His commitment to both research and patient care, reinforced by international exposure and collaboration, reflects a balanced professional maturity that is commendable for a researcher of his career stage. With continued development in research leadership, grant participation, and broader dissemination of his work, Dr. Wei is likely to make substantial long-term contributions to cardiovascular medicine. His background, experience, and vision align well with the purpose of the Young Researcher Award, making him a strong candidate deserving of recognition. As he continues to evolve in his academic and clinical endeavors, Dr. Wei is poised to become an influential figure in advancing electrophysiological practice and research both in China and internationally.

Publication Top Notes

  1. Association between age at diagnosis of atrial fibrillation and subsequent risk of ischemic stroke
    Authors: Y. Cheng, H. Deng, H. Wei, Y. Xue, Z. Wu
    Journal: Journal of the American Heart Association
    Year: 2025

  2. A giant left atrial appendage aneurysm with incessant atrial tachycardia
    Authors: H. Wei, Y. Xue, S. Wu, H. Liao
    Journal: Journal of Cardiovascular Electrophysiology
    Year: 2025

  3. A novel mutation in hERG gene associated with azithromycin-induced acquired long QT syndrome
    Authors: Y. Cheng, Y. Wu, H. Wei, L. Liu, W. Bi
    Journal: Molecular Biology Reports
    Year: 2024
    Citations: 1

 

Jian-gang Guo | Materials Science | Best Researcher Award

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Prof. Dr. Jian-gang Guo | Materials Science | Best Researcher Award

Professor at Institute of Physics Chinese Academy of Sciences: Chinese Academy of Sciences Institute of Physics, China

Jian-gang Guo is a renowned physicist specializing in condensed matter physics, particularly in superconductivity and magnetic materials. He is a Full Professor at the Institute of Physics, Chinese Academy of Sciences (IOP, CAS). His research has significantly contributed to understanding strongly electron-correlated systems, with a focus on superconducting materials. One of his most notable achievements is the discovery of KxFe2Se2 high-temperature superconductors, which opened a new research field and gained worldwide recognition. He has published 118 papers in prestigious journals such as Nature, Nature Chemistry, Nature Communications, and Physical Review Letters. His work has had a profound impact on materials science and has inspired extensive global research. Additionally, he has successfully developed cubic silicon carbide (SiC) single crystals applicable for mass production. His contributions have earned him several prestigious awards, including the Second Prize of the State Natural Science Award of China. With international experience from institutions such as Rice University and the Tokyo Institute of Technology, he has established himself as a leader in superconductivity research. His innovative discoveries, extensive publication record, and international collaborations position him as a highly influential figure in modern condensed matter physics.

Professional Profile

Education

Jian-gang Guo has an extensive academic background in condensed matter and solid-state physics. He earned his Ph.D. in Condensed Matter Physics from the Institute of Physics, Chinese Academy of Sciences (IOP, CAS) in 2011. His doctoral research focused on the properties of electron-correlated materials, particularly superconductors. Prior to his Ph.D., he completed an M.S. in Condensed Matter Physics in 2008 at the State Key Laboratory of Superhard Materials, Jilin University, China. During his master’s studies, he gained expertise in high-pressure physics and material synthesis techniques. He obtained his B.S. in Solid-State Physics from the Department of Physics, Jilin University, in 2005. His undergraduate studies laid the foundation for his later work in electronic materials and crystallography. Throughout his academic journey, he has developed a strong theoretical and experimental background in superconductivity, transport properties, and magnetic interactions. His education at top institutions in China provided him with a solid platform to contribute significantly to the field of condensed matter physics. His ability to integrate fundamental physics with experimental discoveries has made him a key figure in the study of superconducting and magnetic materials.

Professional Experience

Jian-gang Guo has held several prominent academic and research positions in leading institutions worldwide. He is currently a Full Professor at the Institute of Physics, Chinese Academy of Sciences (IOP, CAS), a position he has held since September 2020. Before that, he was an Associate Professor at IOP, CAS, from 2016 to 2020, contributing to advancements in superconductivity and quantum materials. From 2014 to 2016, he was an ICAM Postdoctoral Fellow at the Department of Physics & Astronomy at Rice University, working in Prof. Pengcheng Dai’s group on neutron diffraction studies of magnetic materials. Between 2011 and 2014, he worked as a Postdoctoral Researcher at the Frontier Research Center, Tokyo Institute of Technology, under Prof. Hideo Hosono, where he expanded his expertise in novel superconducting materials. His career has been marked by international collaborations, interdisciplinary research, and groundbreaking discoveries in the field of condensed matter physics. His professional experience has allowed him to develop a strong research network and contribute significantly to both experimental and theoretical advancements in strongly correlated electronic systems.

Research Interests

Jian-gang Guo’s research primarily focuses on the physical properties of strongly electron-correlated systems, including superconductors and magnetic materials. His work involves techniques such as x-ray and neutron diffraction, low-temperature transport measurements, and theoretical modeling. He is particularly interested in exploring the relationship between crystallographic structures and electronic properties in new functional materials. One of his most significant contributions is the discovery of KxFe2Se2 high-temperature superconductors, which led to the development of a new class of alkali-metal intercalated FeSe superconductors. His research has also extended to the growth of bulk cubic silicon carbide (SiC) single crystals using high-temperature solution methods, making them suitable for industrial applications. His interests further include studying charge density waves, metal-insulator transitions, and novel quantum materials. By combining experimental and theoretical approaches, he aims to develop new materials with unique electronic and magnetic properties. His work continues to drive advancements in fundamental physics while also providing potential applications in energy storage, quantum computing, and semiconductor industries.

Research Skills

Jian-gang Guo possesses a diverse set of research skills that enable him to make significant contributions to condensed matter physics. His expertise includes x-ray and neutron diffraction techniques, which he utilizes to investigate the structural and electronic properties of superconductors and magnetic materials. He is skilled in low-temperature transport measurements, allowing him to analyze the electrical and thermal behavior of materials under extreme conditions. His experience in growing high-quality single crystals, including superconducting and semiconducting materials, has been instrumental in developing new materials for both fundamental and applied research. Additionally, he has a strong background in theoretical calculations, enabling him to model electronic structures and magnetic interactions in complex systems. His ability to integrate experimental and computational methods has allowed him to uncover new physical phenomena in strongly correlated materials. Furthermore, his experience with high-pressure synthesis techniques has contributed to the discovery of novel superconducting and magnetic materials. His research skills have been critical in advancing knowledge in condensed matter physics and developing materials with real-world applications.

Awards and Honors

Jian-gang Guo has received several prestigious awards in recognition of his outstanding contributions to condensed matter physics. In 2020, he was awarded the Second Prize of the State Natural Science Award of the People’s Republic of China, one of the highest honors for scientific research in the country. This award recognized his pioneering work on alkali-metal intercalated FeSe superconductors. In 2022, he received the Second Prize of the Beijing Municipal Natural Science Prize, highlighting his impact on superconductivity research. Additionally, he was honored with the CAS Science and Technology Promotion Development Award in 2021 for his contributions to material synthesis and characterization. His research has been widely acknowledged, with his work on high-temperature superconductors being selected as a Milestone Paper for the 50th Anniversary of Physical Review B. These accolades reflect his significant influence on the scientific community and his role in advancing the understanding of strongly correlated electron systems. His continued contributions to superconductivity and novel materials research further solidify his reputation as a leading figure in his field.

Conclusion

Jian-gang Guo is a distinguished researcher whose work has had a transformative impact on condensed matter physics. His discovery of KxFe2Se2 high-temperature superconductors has influenced global research, inspiring over 300 teams worldwide. With 118 publications in top-tier journals and numerous prestigious awards, he has established himself as a leader in superconductivity and materials science. His ability to integrate experimental and theoretical approaches has led to the discovery of novel quantum materials and superconducting compounds. His contributions extend beyond fundamental research, as demonstrated by his work on silicon carbide single crystals, which have industrial applications. His extensive international collaborations, research skills, and ability to mentor young scientists further strengthen his profile. While his work has already made significant contributions to physics, expanding interdisciplinary research into quantum computing, energy materials, and industrial partnerships could further enhance his influence. His achievements, dedication, and pioneering discoveries make him a strong candidate for the Best Researcher Award. His continued research is expected to shape the future of superconductivity, quantum materials, and electronic devices for years to come.

Publications Top Notes

  1. Modeling and Suppressing Interfacial Instability in Growth of SiC from High-Temperature Solutions

    • Authors: Sheng Da, Wang Guobin, Yang Yunfan, Wang Wenjun, Chen Xiaolong
    • Year: 2025

  2. Size-Effect Enriched Phase Diagram in p-Type Skutterudite Superconductor Ir₃.₈Sb₁₂

    • Authors: Wang Junjie, Liu Xu, Pei Cuiying, Guo Jianggang, Ying Tianping
    • Year: 2025

  3. Intermediately Coupled Type-II Superconductivity in a La-Based Kagome Metal La₃Al

    • Authors: Yu Yingpeng, Liu Zhaolong, Chen Zhaoxu, Guo Jianggang, Jin Shifeng
    • Year: 2025
    • Citations: 1

  4. Dynamic-to-Static Switch of Hydrogen Bonds Induces a Metal–Insulator Transition in an Organic–Inorganic Superlattice

    • Authors: Xie Zhenkai, Luo Rui, Ying Tianping, Guo Jianggang, Chen Xiaolong
    • Year: 2024
    • Citations: 6

  5. Antiferromagnetic Frustration Behavior with Face-Sharing CuAs₄ Tetrahedrons in Conducting ACu₆As₃ (A = Li and Na)

    • Authors: Yang Yuxin, Chen Zhaoxu, Liu Xu, Chen Xu, Guo Jianggang
    • Year: 2024

  6. Evidence of a Hydrated Mineral Enriched in Water and Ammonium Molecules in the Chang’e-5 Lunar Sample

    • Authors: Jin Shifeng, Hao Munan, Guo Zhongnan, Guo Jianggang, Chen Xiaolong
    • Year: 2024
    • Citations: 6

  7. Quantum-Confined Tunable Ferromagnetism on the Surface of a Van der Waals Antiferromagnet NaCrTe₂

    • Authors: Li Yidian, Du Xian, Wang Junjie, Chen Yulin, Yang Lexian
    • Year: 2024

  8. Superconductivity in Pressurized Trilayer La₄Ni₃O₁₀−δ Single Crystals

    • Authors: Zhu Yinghao, Peng Di, Zhang Enkang, Guo Jianggang, Zhao Jun
    • Year: 2024
    • Citations: 41

  9. Influence of Dimensionality on Superconductivity in Pressurized 3D SnPSe₃ Single Crystal

    • Authors: Wang Junjie, Liu Xu, Zhang Ling, Guo Jianggang, Ying Tianping
    • Year: 2024

  10. High-Quality and Wafer-Scale Cubic Silicon Carbide Single Crystals

  • Authors: Wang Guobin, Sheng Da, Yang Yunfan, Guo Jianggang, Chen Xiaolong
  • Year: 2024
  • Citations: 10

Rohidas Arote | Pharmaceutical Science | Biotechnology Advancement Award

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Prof. Rohidas Arote | Pharmaceutical Science | Biotechnology Advancement Award

Dr. Rohidas B. Arote is a distinguished professor in the Center for Nano and Material Sciences at Jain University, Bangalore, India. With over two decades of experience in biotechnology, gene therapy, and drug delivery, he has made substantial contributions to biomedical research. His expertise lies in biomaterials, pharmacology, toxicology, and theranostics, particularly in cancer, immune, and regenerative therapies. Having served as a professor at Seoul National University (SNU), a globally ranked institution, he has led groundbreaking research in non-viral gene delivery systems and targeted drug delivery for cancer therapy. Dr. Arote has secured major research grants, collaborated with international institutions, and delivered invited talks at global conferences. He has received prestigious awards such as the Creative Pioneering Research Award and IAAM Scientist Medal. In addition to his academic achievements, he actively contributes to international scientific societies, reviews for high-impact journals, and organizes leading scientific conferences. With a strong track record of publications, research funding, and innovation, Dr. Arote continues to be a key figure in biomedical and pharmaceutical sciences, advancing cutting-edge solutions for healthcare and drug development.

Professional Profile

Education

Dr. Rohidas B. Arote holds a Ph.D. in Biotechnology (2009) from Seoul National University, South Korea, where he specialized in gene therapy and drug delivery systems. His doctoral research focused on developing non-viral polymeric gene carriers for targeted cancer therapy. Before pursuing his Ph.D., he earned a Master of Science (M.S.) in Pharmacognosy and Phytochemistry (2002) from the University of Mumbai, India, where he gained expertise in natural product chemistry and pharmaceutical formulations. His academic journey began with a Bachelor of Science (B.S.) in Pharmaceutical Sciences (2000) from the University of Pune, India, equipping him with a strong foundation in pharmaceutics, drug formulation, and biotechnology. Throughout his education, he has been a recipient of several prestigious fellowships, including the Brain Korea (BK21) Fellowship (2008) and the Korea Science and Engineering Fellowship (KOSEF) (2005). He was also a GATE Scholar in Pharmacy (2000), a competitive national-level qualification exam conducted by IIT Kharagpur, India. His interdisciplinary academic background, spanning biotechnology, pharmaceutical sciences, and biomedical engineering, has enabled him to develop innovative solutions in gene therapy, biomaterials, and targeted drug delivery.

Professional Experience

Dr. Rohidas B. Arote has over 20 years of academic and research experience across prestigious institutions worldwide. He is currently a Professor at the Center for Nano and Material Sciences, Jain University, Bangalore (2021-present), where he leads cutting-edge research in nanomedicine and biomaterials. Prior to this, he served at Seoul National University (SNU), South Korea, as an Associate Professor (2017-2020) and Assistant Professor (2010-2017), where he developed gene delivery technologies for cancer therapy. He also worked as a Research Associate (2009-2010) at SNU, focusing on polymeric carriers for gene therapy. In addition, he held visiting professor positions at King Abdullah University of Science and Technology (KAUST), Saudi Arabia (2019-2020), and the Indian Institute of Science (IISc), Bangalore (2019-2020), contributing to advanced biomedical research. Early in his career, he gained industry experience as a Formulation & Development Scientist at Ajanta Pharma Ltd, Mumbai (2003-2004). His diverse academic, research, and industry experience has made him a leader in drug delivery, biomaterials, and biomedical engineering.

Research Interests

Dr. Rohidas B. Arote’s research focuses on gene therapy, drug delivery, biomaterials, biomedical engineering, pharmacology, toxicology, and theranostics. He is particularly interested in developing novel non-viral gene delivery systems for targeted cancer therapy. His work involves designing biodegradable polymeric nanocarriers for effective gene transfection, with applications in cancer, immune, and regenerative therapies. He explores nanotechnology-based drug delivery to enhance the bioavailability and therapeutic efficacy of pharmaceuticals. Additionally, he investigates biocompatible materials for tissue engineering and regenerative medicine, contributing to the development of next-generation biomaterials for medical applications. His interdisciplinary research bridges biotechnology, materials science, and pharmaceutical sciences, addressing critical challenges in disease treatment and drug delivery. Through collaborations with global research institutions, he continues to push the boundaries of biomedical research by integrating nanomedicine, molecular biology, and bioengineering to develop innovative therapeutic strategies.

Research Skills

Dr. Rohidas B. Arote possesses a diverse set of advanced research skills in biomedical and pharmaceutical sciences. He is an expert in nanotechnology-based drug delivery, specializing in the synthesis and characterization of biodegradable polymers for gene therapy applications. He has expertise in molecular biology techniques, including gene cloning, siRNA delivery, and CRISPR-based genome editing. His skills extend to polymeric biomaterials design, nanoparticle synthesis, and surface modification for targeted drug delivery. He is proficient in in vitro and in vivo models for evaluating gene expression, drug efficacy, and toxicity in preclinical studies. Additionally, he has experience in high-throughput screening, bioinformatics, and computational modeling for drug formulation optimization. His research involves the development of multifunctional polymeric carriers, receptor-mediated drug targeting, and biodegradable materials for regenerative medicine. His strong analytical and problem-solving abilities have enabled him to successfully secure research funding, publish in top-tier scientific journals, and contribute to cutting-edge biomedical innovations.

Awards and Honors

Dr. Rohidas B. Arote has received numerous prestigious awards for his pioneering research in gene therapy and biomaterials. He was honored with the Creative Pioneering Research Award (2017) from Seoul National University, recognizing his innovative contributions to biomedical research. He also received the IAAM Scientist Medal (2017) from the International Association of Advanced Materials, highlighting his excellence in advanced materials and nanomedicine. Other notable accolades include the Research Excellence Award (2010) from the Research Institute for Agriculture and Life Sciences and the Young Scientist Award (2008) from the 16th POLYCHAR: World Forum on Advanced Materials. He has been a Brain Korea (BK21) Fellow (2008) and received the Korea Science and Engineering Fellowship (KOSEF) (2005). His early academic achievements include being a GATE Scholar in Pharmacy (2000), a highly competitive national-level distinction. These awards reflect his outstanding research contributions, leadership in academia, and dedication to advancing biomedical sciences.

Conclusion

Dr. Rohidas B. Arote is an exceptional researcher and academic leader with a remarkable career spanning over two decades in biotechnology, gene therapy, and drug delivery. His contributions in biomaterials, nanomedicine, and regenerative therapies have significantly advanced the field of biomedical sciences. Through his research, funding acquisitions, and scientific collaborations, he has played a crucial role in developing novel drug delivery systems for cancer therapy. His achievements in securing high-impact publications, international awards, and research grants showcase his dedication to scientific excellence. In addition to his research, he has contributed as a peer reviewer, conference organizer, and mentor, shaping the next generation of biomedical researchers. As a professor at Jain University, Bangalore, and a former faculty member at Seoul National University, he continues to lead groundbreaking research in nanomedicine. With his strong academic background, innovative research, and global scientific impact, Dr. Arote stands as a deserving candidate for prestigious research awards, making a lasting impact in healthcare and pharmaceutical sciences.

Publications Top Notes

  1. Title: Microfluidics in Bioanalytical Chemistry
    Authors: R. Nisarga, P.P. Pandit, J.N. Sangshetti, R.B. Arote
    Year: Not provided

  2. Title: Exploring Antibiofilm Potential of Some New Imidazole Analogs Against C. Albicans: Synthesis, Antifungal Activity, Molecular Docking and Molecular Dynamics Studies
    Authors: S.K. Pathan, A.V. Shelar, S.U. Deshmukh, R.H. Patil, J.N. Sangshetti
    Year: 2023
    Citations: 1

  3. Title: In Silico Structure-Based Drug Design Approach to Find Potential Hits in Ventilator-Associated Pneumonia Caused by Pseudomonas aeruginosa
    Authors: M.G. Damale, R.B. Patil, S.A. Ansari, R.B. Arote, J.N. Sangshetti
    Year: 2022
    Citations: 2

  4. Title: Efficient Gene Transfection to Lung Cancer Cells via Folate-PEI-Sorbitol Gene Transporter
    Authors: K. Cho, S. Kim, H. Chun, A. Lee, R.B. Arote
    Year: 2022
    Citations: 6

  5. Title: Development of Novel, Biocompatible, Polyester Amines for Microglia-Targeting Gene Delivery
    Authors: B. Choi, M. Ahn, S. Hong, R.B. Arote, S.J. Lee
    Year: 2021
    Citations: 1

  6. Title: Insights of Tankyrases: A Novel Target for Drug Discovery
    Authors: M.G. Damale, S.K. Pathan, D.B. Shinde, R.B. Arote, J.N. Sangshetti
    Year: 2020
    Citations: 26

  7. Title: Boric Acid: A Versatile Catalyst in Organic Synthesis
    Authors: S.K. Pathan, P.R. Mahaparale, S.U. Deshmukh, R.B. Arote, J.N. Sangshetti
    Year: Not provided
    Citations: 5

Mitiku Yohannes | Biological Sciences | Best Researcher Award

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Dr. Mitiku Yohannes | Biological Sciences | Best Researcher Award

Instructor at Arba Minch University, Ethiopia

Mitiku Yohannes Alemu is an accomplished academic and researcher specializing in animal production and health. Born on October 12, 1976, in Ethiopia, he is currently an instructor at the Department of Animal Science, Arba Minch University, Southern Ethiopia. With a strong educational background, including a PhD in Animal Production from Arba Minch University, Mitiku has made significant contributions to the agricultural and livestock sectors. Over two decades of experience in roles spanning animal husbandry, food security, livestock improvement, and academia have honed his expertise. Fluent in multiple languages and proficient in data analysis and statistical tools, he excels in integrating practical and theoretical knowledge. Mitiku is highly recommended by esteemed professionals in his field and has a proven track record of leadership and innovation, making him a respected figure in agricultural science.

Professional Profile

Education

Mitiku Yohannes Alemu has an extensive educational background in agricultural sciences. He completed his elementary and secondary education in the Mirab Abaya area, followed by high school at Arba Minch Comprehensive High School. He earned his Bachelor of Science in Animal Production and Health from Jimma University in 1999 E.C., laying the foundation for his career. In 2007, he obtained a Master of Science in Animal Production from Hawassa University, specializing in advanced agricultural techniques. His academic journey culminated with a PhD in Animal Production from Arba Minch University in 2024, reflecting his commitment to addressing critical challenges in livestock and agriculture. Alongside his formal education, Mitiku acquired certifications in Ethiopian sheep and goat productivity, market-oriented extension, and value chain development, enhancing his qualifications and practical skills.

Professional Experience

Mitiku has held various roles that underscore his expertise in agriculture and animal sciences. He began his career as an expert in animal husbandry and forage development in Mirab Abaya Woreda Agricultural Office, later advancing to head the Food Security and Early Warning Team. His leadership extended to serving as the Woreda Agriculture and Rural Development Office Head, where he implemented initiatives to improve agricultural productivity. He also contributed to livestock breed improvement as an expert at the Gamo Zone Livestock and Fishery Resource Department. Currently, Mitiku is an instructor in the Department of Animal Science at Arba Minch University, where he combines his extensive field experience with academic instruction to train future agricultural professionals.

Research Interests

Mitiku’s research focuses on advancing animal production and health, with a particular interest in sustainable livestock management and productivity improvement. His work emphasizes market-oriented extension services and value chain development, reflecting his commitment to bridging gaps between research and practical application. He is also interested in breed improvement and the adaptation of livestock to changing environmental conditions. His academic pursuits aim to enhance food security, optimize forage development, and promote innovative solutions for Ethiopia’s agricultural challenges. With a focus on integrating modern technology into traditional practices, Mitiku seeks to contribute to the sustainable development of the agricultural sector.

Research Skills

Mitiku possesses a comprehensive skill set in research methodologies and data analysis. He is adept at using statistical tools such as SPSS, SAS, and R for data interpretation and experimental design. His computer proficiency includes advanced knowledge of Microsoft Office tools and software applications relevant to agricultural research. Mitiku is skilled in conducting field studies, evaluating livestock productivity, and designing market-oriented extension programs. Additionally, his multilingual abilities enable him to communicate effectively with diverse communities, facilitating knowledge dissemination. His expertise in applied research, coupled with his proficiency in modern technological tools, positions him as a leading figure in agricultural science.

Awards and Honors

Throughout his career, Mitiku Yohannes Alemu has earned recognition for his contributions to agricultural science and livestock improvement. He holds a certificate in the Ethiopian Sheep and Goat Productivity Improvement Program (ESGPIP), highlighting his expertise in enhancing livestock productivity. He also received certification in market-oriented extension and value chain development, reflecting his ability to align research with practical agricultural needs. Mitiku’s role as a student union leader during his undergraduate studies at Jimma University earned him accolades for leadership. As an academic and researcher, his dedication continues to garner respect and recognition from peers and professionals in the agricultural sector.

Conclusion

Mitiku Yohannes Alemu demonstrates a strong foundation in animal science research and development, making him a promising candidate for a Best Researcher Award. His educational achievements, extensive experience, and technical skills stand out. However, to enhance his candidacy, he should focus on showcasing his research output, international collaborations, and specific innovations or projects. Addressing these areas could elevate his profile to a more competitive level.

Publication Top Notes

  • Comparative nutrient utilization efficiency on diets containing combined fruit wastes in view of browser/grazer dichotomy in Ethiopian settings: Woyito-Guji bucks versus Doyo-Gena rams
  • Nutritional and Phytochemical Characteristics of Fruits and Vegetable Wastes as Livestock Feed: A Case Study in Gamo Zone, Southern Ethiopia
    • Journal: Veterinary Medicine International
    • Year: 2024
    • DOI: 10.1155/2024/4427876
    • Authors: Mitiku Yohannes, Yisehak Kechero, Yilkal Tadele, Alessandro Di Cerbo

 

Abdalla Khedr | Bioinorganic Chemistry | Best Researcher Award

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Prof. Abdalla Khedr | Bioinorganic Chemistry | Best Researcher Award

Prof at Tanta University, Egypt.

Dr. Abdalla Mohamed Khedr, a Professor of Inorganic Chemistry, boasts extensive academic qualifications and a distinguished professional background. His research interests span various areas, from metal complex characterization to water analysis and agricultural residue utilization. With a wealth of research skills and a track record of supervising numerous Ph.D. and M.Sc. students, Dr. Khedr contributes significantly to advancing scientific knowledge. His contributions have been recognized through awards and honors, reflecting his dedication to excellence in academia and research.

Professional Profiles:

Education

Ph.D. in Analytical Chemistry: January 2000, Chemistry Department, Faculty of Science, Tanta University, Tanta – Egypt. Thesis titled “Spectrophotometric and Analytical Studies for Determination of some Metal Ions by Complexation with some Organic Compounds”. M.Sc. in Inorganic Chemistry: February 1997, Chemistry Department, Faculty of Science, Tanta University, Tanta – Egypt. Thesis titled “Physico-Chemical and Analytical Studies on some Complexes of some Ligands Containing Nitrogen and Oxygen”. B.Sc. in Chemistry: 1993, Faculty of Science, Tanta University, Tanta – Egypt. Attained “Very good with honor degree”, including a final project in Organo-Silicon compounds graded as “Excellent”.

Professional Experience

Dr. Abdalla Mohamed Khedr has held various academic and administrative positions throughout his career. Since January 31, 2012, he has served as a Professor of Inorganic Chemistry at the Chemistry Department, Faculty of Science, Tanta University, Tanta – Egypt. From February 2014 to December 2020, he worked as a Professor of Inorganic Chemistry at the Chemistry Department, College of Applied Science, Umm Al-Qura, Makkah, KSA. Dr. Khedr also served as the Director of the Micro-Analysis Unit at the Faculty of Science, Tanta University, Tanta – Egypt, from February 2012 to February 2013. Prior to his professorship roles, he held positions as an Associate Professor of Analytical Chemistry (February 2007 – January 2012), Lecturer of Analytical Chemistry (February 2000 – February 2007), and Assistant Lecturer of Inorganic Chemistry (February 1997 – February 2000) at the Chemistry Department, Faculty of Science, Tanta University, Tanta – Egypt. Additionally, from December 1993 to February 1997, Dr. Khedr worked as a Demonstrator at the Chemistry Department, Faculty of Science, Tanta University, Tanta – Egypt.

Research Interest

Dr. Abdalla Mohamed Khedr’s research interests encompass a wide range of areas within inorganic chemistry and analytical chemistry. These include the preparation and characterization of novel bi- and polynuclear metal complexes, along with the exploration of their catalytic and biological activities. He also focuses on the analytical applications of complex formation for microdeterminations of metal ions in various environmental samples. Additionally, Dr. Khedr is involved in the synthesis and spectral studies of heterocyclic Schiff bases and azo compounds, examining their potential analytical applications. Moreover, his research extends to water analysis and purification techniques, as well as the utilization of Egyptian rice straw through chemical treatment.

Award and Honors

Dr. Abdalla Mohamed Khedr has been recognized for his contributions in the field of chemistry with several prestigious awards and honors. In 2012, he was honored with the Tanta University Incentive Award in Basic Sciences (Chemistry), acknowledging his outstanding achievements in the field. Additionally, Dr. Khedr has received 18 prizes from Tanta University for his scientific publications in international journals, further highlighting the impact and quality of his research work. These accolades reflect his dedication to advancing scientific knowledge and his significant contributions to the field of chemistry.

Research Skills

Dr. Abdalla Mohamed Khedr is a distinguished Professor of Inorganic Chemistry with expertise in various research areas. His research interests include the preparation and characterization of metal complexes, analytical applications in microdetermination of metal ions, spectral studies of heterocyclic compounds, water analysis, and utilization of agricultural residues. Dr. Khedr possesses a wide range of research skills, including spectroscopic and analytical techniques, and has received recognition for his scientific contributions through awards and honors. His dedication to advancing scientific knowledge and mentoring students underscores his commitment to excellence in academia and research.

Publications

  1. Synthesis, characterization, antimicrobial, molecular docking simulation, and antitumor assays of nanometric complexes based on new thiazole Schiff base derivative
    • Authors: Khedr, A.M.; El-Ghamry, H.A.; Wahdan, K.M.; Mandour, H.S.A.
    • Journal: Applied Organometallic Chemistry
    • Year: 2024
  2. Integration of 2D graphene oxide/zinc oxide nanohybrid for enhancement adsorption and photodegradation of organic pollutants
    • Authors: Al-Zahrani, S.A.; Khedr, A.M.; Alturki, A.M.; Abo El-Yazeed, W.S.
    • Journal: Journal of Molecular Liquids
    • Year: 2024
  3. Facile Synthesis of Sodium Iron Silicate/Sodium Iron Oxide Silicate Nanostructures from Canned Beans and Rice Husk Wastes for Efficient Removal of Cd(II) Ions from Aqueous Media
    • Authors: El-Seidi, N.; Khedr, A.M.; Mansour, I.A.; Abdelrahman, E.A.
    • Journal: Silicon
    • Year: 2024
  4. Nano-sized Co(II), Ni(II), and Zr(IV) complexes of quinaldine-based azo dye for promising therapeutic and catalytic applications: Synthesis, characterization, density functional theory studies and molecular docking
    • Authors: Khedr, A.M.; Gaber, M.; Elsharkawy, M.; Bakr, E.A.; Atlam, F.M.
    • Journal: Applied Organometallic Chemistry
    • Year: 2023
  5. Enhance the oral insulin delivery route using a modified chitosan-based formulation fabricated by microwave
    • Authors: AlSalem, H.S.; Abdulsalam, N.M.; Khateeb, N.A.; Shoueir, K.R.; Nadwa, E.H.
    • Journal: International Journal of Biological Macromolecules
    • Year: 2023
  6. Copper based azo dye catalysts for phenoxazinone synthase mimicking efficiency: Structure characterization and bioactivity evaluation
    • Authors: El-Ghamry, H.A.; Alkurbi, A.A.; Alhasani, M.A.; Takroni, K.M.; Khedr, A.M.
    • Journal: Arabian Journal of Chemistry
    • Year: 2023
  7. A series of nanosized Cu(II) complexes based on sulfonamide azo dye ligands: An insight into complexes molecular structures, antimicrobial, antitumor and catalytic performance for oxidative dimerization of 2-aminophenol
    • Authors: El-Ghamry, H.A.; Alharbi, B.K.; Takroni, K.M.; Khedr, A.M.
    • Journal: Applied Organometallic Chemistry
    • Year: 2023
  8. Metal Chelates of Sulfafurazole Azo Dye Derivative: Synthesis, Structure Affirmation, Antimicrobial, Antitumor, DNA Binding, and Molecular Docking Simulation
    • Authors: El-Ghamry, H.A.; Al-Ziyadi, R.O.; Alkhatib, F.M.; Takroni, K.M.; Khedr, A.M.
    • Journal: Bioinorganic Chemistry and Applications
    • Year: 2023
  9. Ultrasound-assisted dispersive microsolid-phase extraction approach for preconcentration of trace cobalt and nickel and sensitive determination in water, food and tobacco samples by flame atomic absorption spectrometry
    • Authors: Gouda, A.A.; El Sheikh, R.; Khedr, A.M.; El-Gabry, M.M.; Youssef, E.H.
    • Journal: International Journal of Environmental Analytical Chemistry
    • Year: 2023
  10. Facile synthesis and characterization of β-cobalt hydroxide/hydrohausmannite/ramsdellitee/spertiniite and tenorite/cobalt manganese oxide/manganese oxide as novel nanocomposites for efficient photocatalytic degradation of methylene blue dye
    • Authors: Abdelrahman, E.A.; Hegazey, R.M.; Ismail, S.H.; Khairy, M.; Ammar, A.M.
    • Journal: Arabian Journal of Chemistry
    • Year: 2022