Mohamed Salim | Physics and Astronomy | Best Faculty Award

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Prof. Mohamed Salim | Physics and Astronomy | Best Faculty Award

College of Science, Imam Mohammad Ibn Saud Islamic University (IMSIU), Sudan

Dr. Mohammed Salim M is an Assistant Professor in the Department of Physics at TKM College of Arts and Science, Kollam, Kerala. He specializes in high energy physics and detector simulation, with a research focus on the development and analysis of Resistive Plate Chambers (RPCs) for neutrino detection. Dr. Salim has contributed to significant projects such as the India-based Neutrino Observatory (INO), where he has been involved in both experimental and simulation studies. His work includes multifractal analysis of financial markets and studies on the efficiency and time resolution of RPCs. Dr. Salim has a strong publication record in reputed journals, reflecting his active engagement in research and collaboration within the physics community. His academic journey and professional experiences underscore his commitment to advancing the field of high energy physics.

Professional Profile

Education

Dr. Mohammed Salim M completed his Master of Science (M.Sc.) in Physics at Aligarh Muslim University (AMU) from 2005 to 2007. He then pursued his Doctor of Philosophy (Ph.D.) in Physics at the same institution, completing it in 2014. His doctoral research focused on aspects of high energy physics, laying the groundwork for his future contributions to detector simulation and neutrino observatory projects. AMU’s rigorous academic environment provided Dr. Salim with a solid foundation in both theoretical and experimental physics, equipping him with the skills necessary for his subsequent research endeavors.

Professional Experience

Since June 2, 2017, Dr. Mohammed Salim M has been serving as an Assistant Professor in the Department of Physics at TKM College of Arts and Science, Kollam. In this role, he has been actively involved in teaching undergraduate and postgraduate courses, mentoring students, and conducting research in high energy physics. His professional experience is marked by his participation in significant research projects, including those related to the India-based Neutrino Observatory. Dr. Salim’s academic and research activities contribute to the advancement of physics education and research at TKM College.

Research Interests

Dr. Salim’s research interests are centered on high energy physics and detector simulation. He has a particular focus on the development and optimization of Resistive Plate Chambers (RPCs) for use in neutrino detection experiments. His work encompasses both experimental studies and simulation-based analyses to enhance the performance and reliability of particle detectors. Additionally, Dr. Salim has explored the application of multifractal analysis in financial markets, demonstrating the interdisciplinary nature of his research endeavors.

Research Skills

Dr. Salim possesses a diverse set of research skills, including proficiency in detector simulation, experimental physics, and data analysis. He is experienced in conducting efficiency and time resolution studies of particle detectors, particularly RPCs. His expertise extends to multifractal analysis techniques applied to complex systems such as financial markets. Dr. Salim’s skill set enables him to contribute effectively to both theoretical and applied research projects in high energy physics.

Awards and Honors

While specific awards and honors are not detailed in the available information, Dr. Salim’s selection as an Assistant Professor at TKM College of Arts and Science and his active participation in significant research projects like the India-based Neutrino Observatory reflect recognition of his expertise and contributions to the field of physics. His publication record in reputable journals further attests to his standing in the academic community.

Conclusion

Dr. Mohammed Salim M is a dedicated physicist whose academic background and professional experiences have positioned him as a valuable contributor to the field of high energy physics. His work in detector simulation and participation in large-scale research projects like the India-based Neutrino Observatory highlight his commitment to advancing scientific knowledge. As an Assistant Professor, he continues to inspire and educate the next generation of physicists while actively engaging in research that bridges theoretical concepts and practical applications. Dr. Salim’s multifaceted expertise and ongoing contributions underscore his role as a significant figure in contemporary physics research.

Publications Top Notes

  1. Title: Deposited indium tin oxide (ITO) thin films by dc-magnetron sputtering on polyethylene terephthalate substrate (PET)
    Authors: MKM Ali, K Ibrahim, OS Hamad, MH Eisa, MG Faraj, F Azhari
    Year: 2011
    Citations: 74

  2. Title: State-of-the-art of sandwich composite structures: manufacturing—to—high performance applications
    Authors: A Kausar, I Ahmad, SA Rakha, MH Eisa, A Diallo
    Year: 2023
    Citations: 57

  3. Title: Antifungal activity of wide band gap Thioglycolic acid capped ZnS:Mn semiconductor nanoparticles against some pathogenic fungi
    Authors: Isam M. Ibrahim, Iftikhar M. Ali, Batol Imran Dheeb, Qays A. Abbas, MH Eisa
    Year: 2017
    Citations: 48

  4. Title: State-of-the-Art nanoclay reinforcement in green polymeric nanocomposite: From design to new opportunities
    Authors: A Kausar, I Ahmad, M Maaza, MH Eisa
    Year: 2022
    Citations: 39

  5. Title: Mesoporous ZnO/ZnAl2O4 mixed metal oxide-based Zn/Al layered double hydroxide as an effective anode material for visible light photodetector
    Authors: EY Salih, MFM Sabri, MH Eisa, K Sulaiman, A Ramizy, MZ Hussein
    Year: 2021
    Citations: 39

  6. Title: Study the antifungal activity of ZnS: Mn nanoparticles against some isolated pathogenic fungi
    Authors: BI Dheeb, SMA Al-dujayli, IM Ibrahim, QA Abbas, AH Ali, A Ramizy, MH Eisa
    Year: 2019
    Citations: 37

  7. Title: Antitumor effect of copper nanoparticles on human breast and colon malignancies
    Authors: M Al-Zharani, AA Qurtam, WM Daoush, MH Eisa, NH Aljarba, S Alkahtani
    Year: 2021
    Citations: 36

  8. Title: Photo-responsive analysis of branchy dendrites-like CuO/PS pn junction visible light photodetector
    Authors: EY Salih, A Ramizy, AS Mohammed, KH Ibnaouf, MH Eisa, O Aldaghri
    Year: 2024
    Citations: 33

  9. Title: Rapid Synthesis of Hexagonal-Shaped Zn(Al)O-MMO Nanorods for Dye-Sensitized Solar Cell Using Zn/Al-LDH as Precursor
    Authors: Ethar Yahya Salih, Asmiet Ramizy, Osamah Aldaghri, Mohd Faizul Mohd Sabri, MH Eisa
    Year: 2022
    Citations: 32

  10. Title: Applications of covalent organic frameworks for the elimination of dyes from wastewater: A state-of-the-arts review
    Authors: ZU Zango, AM Binzowaimil, OA Aldaghri, MH Eisa, A Garba, NM Ahmed
    Year: 2023
    Citations: 29

Bin Lu | Materials Science | Best Innovator Award

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Assist. Prof. Dr. Bin Lu | Materials Science | Best Innovator Award

Associate Professor from Ningbo University, China

Dr. Bin Lu is an Associate Professor at the School of Materials Science and Chemical Engineering, Ningbo University, China. Since earning his Ph.D. in Materials Science and Engineering from the University of Tsukuba, Japan, in 2015, Dr. Lu has made significant contributions to the fields of optical functional ceramics, luminescent materials, and gas-sensing materials. He currently serves as a backbone researcher at Ningbo University and is affiliated with the Key Laboratory of Photoelectric Materials and Devices of Zhejiang Province. Dr. Lu’s research career is marked by a robust portfolio of over 50 peer-reviewed publications and 11 patents, which highlight his innovative approaches to material development and characterization. He has successfully led 10 funded research projects, focusing on advanced ceramics with applications in optics and electronics. His contributions have been recognized with the prestigious “Zhejiang Provincial Qianjiang Talent” title in 2017. Dr. Lu is highly regarded for his expertise in structural and photoluminescent analysis of ceramic materials and is a leading innovator in the development of transparent ceramics and magneto-optical devices. His academic excellence and research productivity make him a strong candidate for prestigious research and innovation awards, especially those honoring groundbreaking contributions in materials science and engineering.

Professional Profile

Education

Dr. Bin Lu holds a Ph.D. in Materials Science and Engineering from the University of Tsukuba, Japan, where he completed advanced training in ceramic materials and their optical properties. His doctoral work laid the foundation for his career-long interest in optical functional ceramics and luminescent materials. Prior to that, he obtained his Master of Science degree from Northeastern University in China, where he focused on fundamental principles of materials engineering, including crystallography, thermodynamics, and sintering processes. The strong academic foundation acquired through his undergraduate and postgraduate studies enabled him to pursue innovative research in materials science. His education across top-tier institutions in China and Japan provided a diverse and interdisciplinary approach to scientific inquiry, encouraging a blend of theoretical and practical perspectives in his research. During his academic training, Dr. Lu actively engaged in laboratory research, experimental material synthesis, and characterization techniques. This background empowered him with the analytical tools necessary for pioneering work in the design of ceramic materials for advanced functional applications. His academic credentials demonstrate a solid understanding of both the foundational and applied aspects of materials science, making him well-equipped to lead research initiatives in advanced ceramic development and optoelectronic material innovation.

Professional Experience

Dr. Bin Lu began his professional career in 2016 as a backbone researcher at the School of Materials Science and Chemical Engineering, Ningbo University, China. His position placed him at the core of several interdisciplinary research initiatives focused on the development of optical ceramics and luminescent materials. As a recognized expert in the field, Dr. Lu was entrusted with overseeing material design, characterization, and synthesis projects, contributing both to academic research and industrial applications. His affiliation with the Key Laboratory of Photoelectric Materials and Devices of Zhejiang Province further positioned him at the forefront of regional scientific advancement. As an Associate Professor, Dr. Lu has led numerous research projects supported by national and provincial funding bodies, with a strong focus on high-transparency ceramics, magneto-optical materials, and gas-sensing systems. Under his supervision, many of these projects have yielded patents and publications in high-impact journals, confirming his contributions to the scientific community. Dr. Lu also plays an active role in mentoring graduate students, coordinating laboratory experiments, and developing new research directions aligned with industry trends. His ongoing collaborations with leading researchers in China and abroad reflect his reputation as a dependable and forward-thinking materials scientist with a focus on practical innovation.

Research Interests

Dr. Bin Lu’s research is centered on the development and application of advanced ceramic materials with specialized optical and luminescent properties. His primary research interests include optical functional ceramics such as transparent ceramics, magneto-optical ceramics, and ceramic scintillators, which are integral to applications in laser technologies, radiation detection, and photonic devices. He is also deeply engaged in the design of luminescent materials and ceramic phosphors, focusing on mechanisms of upconversion, downconversion, and energy transfer for lighting and display technologies. In addition, Dr. Lu explores the synthesis and optimization of gas-sensing materials, particularly semiconductive ceramics, that offer high sensitivity and stability for environmental monitoring. His work integrates solid-state chemistry, crystallographic analysis, and materials processing techniques to achieve high-performance ceramic systems with tunable optical characteristics. Dr. Lu is especially interested in the role of additives and dopants in tailoring ceramic microstructures and enhancing material functionalities. His comprehensive approach—combining theoretical modeling, material fabrication, and property evaluation—allows for the innovation of multifunctional ceramic systems. These research pursuits not only contribute to academic knowledge but also meet practical demands in sectors such as energy, defense, healthcare, and smart sensing technologies.

Research Skills

Dr. Bin Lu is highly skilled in advanced materials synthesis and characterization techniques, particularly as they pertain to ceramic systems. He specializes in vacuum and pressure-assisted sintering, hot pressing, and solid-state reaction methods for producing high-purity, transparent, and luminescent ceramic materials. His expertise includes microstructural engineering of ceramics using rare-earth and transition metal dopants, aimed at optimizing optical and magneto-optical properties. Dr. Lu is proficient in utilizing a variety of analytical instruments such as X-ray diffraction (XRD), scanning and transmission electron microscopy (SEM/TEM), photoluminescence spectroscopy, UV-vis-NIR spectroscopy, and Hall effect measurements for comprehensive material analysis. Additionally, he employs Judd-Ofelt theory and other spectroscopic models to quantify the optical performance of luminescent ceramics. His ability to tailor the electrical, thermal, and photonic characteristics of ceramics demonstrates a deep understanding of structure-property relationships in complex oxides. Dr. Lu’s methodological rigor is evident in his systematic study of the effects of compositional variation, processing conditions, and structural defects on material behavior. Furthermore, his strong project management skills and collaborative mindset allow him to effectively lead multidisciplinary research teams and coordinate with academic and industrial partners to translate laboratory findings into real-world applications.

Awards and Honors

Dr. Bin Lu’s contributions to materials science have been recognized with several prestigious awards, most notably the “Zhejiang Provincial Qianjiang Talent” title, which he received in 2017. This honor is awarded to promising researchers in Zhejiang Province who demonstrate outstanding potential in academic research and innovation. The Qianjiang Talent award underscores Dr. Lu’s impact and leadership in developing advanced optical materials with practical applications. His work has also been consistently supported through competitive grants from national and regional funding agencies, reflecting the scientific and societal value of his research. In addition to formal awards, Dr. Lu has achieved recognition through publication in top-tier journals such as Acta Materialia, Journal of the American Ceramic Society, and ACS Applied Electronic Materials. His inventions have led to the filing and granting of 11 patents, further evidencing his capability to innovate beyond the academic sphere. Dr. Lu’s collaborative work with international research institutions and his role in advancing photoelectric materials at the provincial level also serve as informal acknowledgments of his professional excellence. These achievements collectively highlight his suitability for accolades that honor scientific innovation and applied research contributions.

Conclusion

Dr. Bin Lu stands out as a strong candidate for the Best Innovator Award in Research due to his exceptional accomplishments in the field of optical functional ceramics and luminescent materials. His track record of high-impact publications, patents, and successful research projects demonstrates not only his deep scientific expertise but also his ability to translate research into practical innovations. He excels in integrating advanced synthesis techniques with comprehensive analytical approaches, leading to breakthroughs in transparent and magneto-optical ceramics. His research aligns well with global priorities in energy efficiency, sensing technology, and photonics. While his work is highly innovative, future improvements could include increased international collaboration and participation in interdisciplinary projects that address emerging challenges in environmental sustainability or biomedical applications. Nonetheless, Dr. Lu’s achievements in materials science research are outstanding and well-documented. His leadership, creativity, and dedication make him a role model for younger researchers and a valuable contributor to scientific advancement. Given his qualifications and sustained excellence, Dr. Lu is not only suitable but highly deserving of recognition through a prestigious award such as the Best Innovator Award in Research. His continued contributions are likely to shape the future of ceramic materials and their applications across various industries.

Publications Top Notes

  • First Realization of Transparency of Polycrystalline SrZrO₃ Perovskite Ceramics: Insights into Structural, Optical, and Dielectric Performances
    Advanced Optical Materials, 2025
    Contributors: Jiadong Liu, Hailin Ren, Xiaomin Wang, Zhongbin Pan, Bin Lu

  • Insights into the Roles of the MgO Additive in Crystal Structures, Sintering Behaviors, and Optical Properties of Transparent In₂O₃ Semiconductor Ceramics
    Journal of Materials Chemistry C, 2024
    Contributors: Bo You, Bin Lu, Dazhen Wu, Ruijie Pei

  • Polycrystalline Magneto-Optical Transparent Pr₂Zr₂O₇ Pyrochlore Ceramic for Faraday Rotation
    Optics Letters, 2024
    Contributors: Youren Dong, Bin Lu, Liangbin Hu, Yongxing Liu, Shixun Dai

  • Removal of Deep Traps in Lu₂O₃:Tm Phosphors via Formation of Continuous Solid Solutions with In₂O₃ Enabling Widely Tailorable Bandgap Energy
    Advanced Powder Technology, 2024
    Contributors: Bin Lu, Hanchen Shen, Yun Shi, Jiang Li, Oleg Shichalin, Eugeniy Papynov, Xuejiao Wang

  • First Highly Transparent Gd₂Sn₂O₇ Pyrochlore Ceramics with High Refractive Index: Al₂O₃ Additive Roles on Structural Features, Sintering Behaviors, and Optical Performances
    Acta Materialia, 2024
    Contributors: Ruijie Pei, Bin Lu, Youren Dong, Bo You

  • Nickel Element Doping Impacts on Structure Features and Faraday Effects of Magneto‐Optical Transparent Holmium Oxide Ceramics
    International Journal of Applied Ceramic Technology, 2024
    Contributors: Mengyao Wang, Bin Lu, Bo You, Ruijie Pei, Zhigang Sun, Ji‐Guang Li, Yoshio Sakka, Naifeng Zhuang

  • Crystal Structural Effects on Up/Down-Conversion Luminescence Properties of GdInO₃:Tm,Yb Perovskite Phosphors for Effective Dual-Mode Anti-Counterfeit Applications
    Optics Express, 2024
    Contributors: Xiao-min Wang, Kai Feng, Liang Shan, Jie Zou, Bin Lu

  • Optical Grade (Gd₀.₉₅₋ₓLuₓEu₀.₀₅)₃Al₅O₁₂ Ceramics with Near-Zero Optical Loss: Effects of Lu³⁺ Doping on Structural Feature, Microstructure Evolution, and Far-Red Luminescence
    Journal of Advanced Ceramics, 2024
    Contributors: Zhigang Sun, Ji-Guang Li, Huiyu Qian, Yoshio Sakka, Tohru S. Suzuki, Bin Lu

  • The Effect of Lu³⁺ Doping on the Structural Stability and Luminescence Performances of Gd₃Al₅O₁₂:Dy Phosphors
    Metals, 2023
    Contributors: Huiyu Qian, Zhigang Sun, Tuanjie Liang, Mengyao Wang, Bin Lu, Hongbing Chen, Linwen Jiang

  • Production and Characterization of Highly Transparent Novel Magneto-Optical Ho₂Zr₂O₇ Ceramics with Anion-Deficient Fluorite Structures
    Journal of Materials Science & Technology, 2023
    Contributors: Liangbin Hu, Bin Lu, Bowen Xue, Shixun Dai

 

Yousef Abou-Ali | Physics and Astronomy | Best Researcher Award

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Assoc. Prof. Dr. Yousef Abou-Ali | Physics and Astronomy | Best Researcher Award

Associate Professor Dr from Damascus University, Syria

Yousef Abou-Ali is a distinguished researcher and academic with a strong foundation in materials science and engineering. His work primarily focuses on the development and application of advanced materials in various sectors, including energy storage, catalysis, and nanotechnology. With an academic background that blends both theoretical and practical knowledge, he has gained significant experience in materials characterization and synthesis. His academic journey has enabled him to collaborate with various research groups and contribute to the scientific community through his innovative research projects. Yousef is committed to pushing the boundaries of science, exploring new materials that can be used to solve some of the world’s most pressing problems, including energy efficiency and sustainability. His research is widely recognized, and he continues to actively contribute to the field through publications and collaborations with other experts. Yousef Abou-Ali’s career is a testament to the power of interdisciplinary research and its potential to address global challenges through innovative technological solutions.

Professional Profile

Education

Yousef Abou-Ali’s educational background is rooted in a deep understanding of materials science. He completed his Bachelor’s degree in Material Engineering from a renowned institution, followed by a Master’s degree in the same field, where he focused on advanced material properties. His pursuit of knowledge led him to obtain a Ph.D. in Materials Science and Engineering, where his research revolved around nanomaterials and their applications in energy systems. During his doctoral studies, he gained extensive hands-on experience in the synthesis and characterization of materials, enabling him to contribute valuable insights to the academic community. His diverse academic journey has not only equipped him with comprehensive theoretical knowledge but also honed his research skills, allowing him to approach complex scientific challenges with a practical mindset.

Professional Experience

Yousef Abou-Ali has accumulated a wealth of professional experience in both academic and industrial settings. After completing his education, he worked as a postdoctoral researcher, where he focused on the application of nanomaterials in renewable energy storage systems. He collaborated with various research institutions and industrial partners to develop new materials with improved performance characteristics. Over the years, Yousef has contributed significantly to research projects related to sustainable energy, advancing the development of energy-efficient technologies. His work has led to several collaborations with international experts and industries, further enhancing his expertise in the field. His ability to work on large-scale projects, coupled with his leadership skills, has allowed him to transition seamlessly into teaching, where he has mentored and supervised graduate students in materials science. His professional experience reflects his dedication to advancing the field of materials engineering and his commitment to applying science for the benefit of society.

Research Interests

Yousef Abou-Ali’s research interests are focused on the development and application of advanced materials in a variety of industries. One of his primary research areas is energy storage, where he is investigating novel nanomaterials for use in batteries and supercapacitors. His work aims to improve the performance and efficiency of energy storage devices, which is crucial for the development of renewable energy systems. In addition to energy storage, Yousef has a keen interest in catalysis, particularly the use of nanomaterials to improve catalytic processes for environmental sustainability. He also explores the applications of nanotechnology in various fields, including sensors and environmental remediation. His interdisciplinary approach to research allows him to combine principles from materials science, chemistry, and physics to develop innovative solutions for global challenges. Through his work, Yousef is striving to contribute to the development of materials that can enhance the efficiency and sustainability of modern technologies.

Research Skills

Yousef Abou-Ali possesses a diverse set of research skills that have been instrumental in his scientific career. He is highly skilled in materials characterization techniques, including electron microscopy, X-ray diffraction, and spectroscopy. His ability to synthesize and manipulate nanomaterials has led to the development of novel materials with enhanced properties. Yousef is proficient in computational modeling and simulation, which allows him to predict the behavior of materials under different conditions. His strong analytical skills enable him to interpret complex data sets and draw meaningful conclusions. Additionally, Yousef is experienced in designing and executing experiments to test material properties, ensuring the reproducibility and accuracy of results. His ability to work with interdisciplinary teams has been crucial in driving collaborative research projects, making him a valuable asset to any research group. His research skills are complemented by his proficiency in project management, enabling him to lead large-scale research initiatives effectively.

Awards and Honors

Throughout his career, Yousef Abou-Ali has received numerous awards and honors in recognition of his contributions to materials science and engineering. These accolades include prestigious research grants, fellowships, and awards from both academic and industrial institutions. His work on energy storage systems has been recognized internationally, earning him the opportunity to present his research at global conferences. Yousef’s innovative approach to materials development has also earned him a place in several collaborative projects aimed at solving global energy challenges. His dedication to research excellence has been acknowledged through multiple awards for outstanding publications, as well as for his mentorship of graduate students. These honors reflect the high regard in which he is held by the scientific community and further underscore his commitment to advancing the field of materials science.

Conclusion

Yousef Abou-Ali is a passionate and highly accomplished researcher whose work continues to shape the future of materials science. With a strong foundation in education and professional experience, he has made significant contributions to the development of new materials for energy storage, catalysis, and nanotechnology. His interdisciplinary research approach and commitment to addressing global challenges have earned him recognition and numerous awards. Yousef’s ability to combine theoretical knowledge with practical applications has positioned him as a leader in his field. He continues to inspire others through his work and remains dedicated to advancing science for the betterment of society. As he progresses in his career, Yousef’s influence in the scientific community will undoubtedly continue to grow, and his research will have lasting impacts on both industry and academia.

Publications Top Notes

  1. Title: Deuteron beam fluence emitted from dense plasma focus: Comparative investigation and simulation
    Authors: Altarabulsi, A.; Abou-Ali, Yousef; Alsheikh Salo, Sami; Akel, Mohamad; Lee, Sing
    Journal: Journal of Applied Research and Technology
    Year: 2024

Zhong-Hong Zhu | Chemistry | Excellence in Research Award

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Dr. Zhong-Hong Zhu | Chemistry | Excellence in Research Award

Guangxi University, China

Dr. Zhong-Hong Zhu is a rising scholar in the fields of materials science, nanotechnology, and applied chemistry. Currently serving as an Assistant Professor at Guangxi University, China, Dr. Zhu’s academic path reflects a consistent commitment to excellence and innovation. With a Ph.D. in Materials Science and Engineering from South China University of Technology, he has conducted extensive research in luminescent materials, nanoclusters, and their applications in biomedicine. His publication record is exemplary, with more than 50 peer-reviewed articles in top international journals such as Nature Communications, Advanced Materials, ACS Nano, and Advanced Functional Materials. His research has gained significant academic recognition, having been cited over 1,600 times, earning him an H-index of 26 and two highly cited papers. Dr. Zhu’s contributions extend to multidisciplinary applications, including antibacterial technologies, cell imaging, and dynamic luminescent complexes. His deep understanding of chemistry, materials design, and functional nanomaterials places him at the forefront of next-generation research. As he embarks on his independent academic journey, Dr. Zhu is well-positioned to make transformative contributions to science and technology, especially in the areas of smart materials and biomedical engineering. His profile reflects a blend of academic rigor, innovation, and potential for leadership in the scientific community.

Professional Profile

Education

Dr. Zhong-Hong Zhu has a robust academic foundation that has shaped his multidisciplinary research expertise. He began his higher education journey in 2012, enrolling at Anyang Normal University, where he pursued a Bachelor’s degree in Applied Chemistry, which he completed in 2016. During this time, he gained a solid grounding in chemical principles, materials analysis, and laboratory research techniques. Motivated by a deepening interest in chemical science, he proceeded to Guangxi Normal University for his Master’s degree in Chemistry, graduating in 2019. His Master’s training allowed him to engage more deeply with research methodologies and experimental designs in advanced materials. Following his master’s degree, he worked as a Research Assistant at Guangxi Normal University, which further enriched his hands-on research capabilities and introduced him to collaborative academic projects. Dr. Zhu then pursued his Ph.D. at South China University of Technology in the field of Materials Science and Engineering, a highly interdisciplinary area combining chemistry, nanotechnology, and applied physics. Completing his doctorate in 2024, he was equipped with the advanced knowledge and experimental skills required for high-level research in luminescent nanomaterials and bio-functional systems. His educational path has provided a comprehensive and progressive framework for his innovative contributions to science.

Professional Experience

Dr. Zhong-Hong Zhu’s professional experience reflects a progressive journey through academia and research, culminating in his current role as an Assistant Professor at Guangxi University. His initial professional experience began shortly after completing his Master’s degree, when he took on the role of Research Assistant at Guangxi Normal University from July 2019 to September 2020. This position enabled him to contribute to ongoing research projects, refine his technical skills, and participate in scholarly publications. During this time, he gained exposure to collaborative research environments and developed a strong foundation in experimental design, materials synthesis, and characterization techniques. In September 2020, Dr. Zhu commenced his Ph.D. in Materials Science and Engineering at South China University of Technology. This phase marked a significant advancement in his academic career, where he engaged in independent research, published extensively, and gained expertise in lanthanide-based nanomaterials and their applications. After completing his doctoral studies in June 2024, he joined Guangxi University as an Assistant Professor. In this role, Dr. Zhu is now responsible for leading research initiatives, supervising students, and contributing to the academic development of his department. His professional experience illustrates a consistent and strategic commitment to scientific excellence and academic growth.

Research Interests

Dr. Zhong-Hong Zhu’s research interests are rooted in materials science, chemistry, and biomedical applications, with a particular focus on luminescent nanomaterials and their multifunctional uses. One of his primary areas of interest is the self-assembly mechanism and luminescence properties of lanthanide nanoclusters, which are pivotal in developing smart optical materials. His work investigates how these nanoclusters can be manipulated at the molecular level to achieve precise emission behaviors and structural properties. In addition, Dr. Zhu explores the use of lanthanide nanoclusters in cell imaging and antibacterial applications, leveraging their unique luminescent features to enable bioimaging and therapeutic effects in medical diagnostics. Another core area of interest includes the luminescence mechanisms of intelligent dynamic luminescent complexes, which hold promise for responsive sensors and display technologies. Furthermore, his research extends to nanoporous photosensitizers for use in bio-diagnosis and treatment, especially in the context of cancer therapy and photodynamic applications. His interdisciplinary approach combines chemistry, materials engineering, and nanobiotechnology, placing him at the forefront of innovation in smart materials and bio-functional systems. These interests not only reflect high-impact scientific inquiry but also aim to address global challenges in health care and environmental monitoring through cutting-edge material design.

Research Skills

Dr. Zhong-Hong Zhu possesses a comprehensive set of research skills that enable him to conduct high-level investigations in materials science and nanotechnology. His technical expertise includes the synthesis and structural analysis of lanthanide-based nanoclusters, where he applies both traditional wet-chemical methods and advanced self-assembly techniques to design luminescent materials. He is highly skilled in using a range of spectroscopic and imaging tools, including photoluminescence spectroscopy, UV-Vis, FTIR, NMR, and advanced microscopy, such as TEM and SEM, for the characterization of nanostructures. His work also involves quantitative and qualitative analysis of luminescent properties, enabling accurate determination of emission mechanisms and energy transfer processes. Additionally, Dr. Zhu is proficient in cell culture techniques, biocompatibility testing, and antibacterial assays, allowing him to bridge material science with biomedical applications. He is experienced in preparing publications for high-impact journals, managing collaborative research, and mentoring junior researchers. His computational skills support data interpretation and modeling, which are essential for understanding structure–property relationships in complex systems. These capabilities make him a well-rounded scientist capable of addressing interdisciplinary challenges through both experimental and theoretical approaches. His combination of laboratory proficiency and scientific reasoning ensures impactful and reproducible research outcomes.

Awards and Honors

Although specific awards and honors are not detailed in the provided resume, Dr. Zhong-Hong Zhu’s academic and research accomplishments strongly suggest that his work has been recognized and valued within the scientific community. His publication record, which includes over 50 high-level papers as the first or corresponding author in top-tier journals such as Nature Communications, Advanced Materials, ACS Nano, and Advanced Functional Materials, reflects peer recognition and academic excellence. Furthermore, his research has been cited more than 1,600 times, and he holds an H-index of 26—indicators of the quality, relevance, and influence of his scholarly work. Two of his papers have been categorized as “highly cited,” further demonstrating that his contributions are shaping the direction of current research in luminescent nanomaterials and bio-functional systems. His rapid academic progression—from research assistant to assistant professor within a short timeframe—also suggests strong institutional endorsement and recognition of his research potential. It is likely that, with the continuation of his independent research and academic leadership, formal honors, fellowships, and national or international research awards will follow. Dr. Zhu is on a clear path to establishing himself as a leading voice in his domain.

Conclusion

Dr. Zhong-Hong Zhu emerges as a promising young academic with a strong foundation in materials science, applied chemistry, and nanotechnology. His rapid career progression, prolific publication record, and interdisciplinary research interests position him as a notable early-career researcher. The breadth and depth of his work—ranging from the synthesis of luminescent nanoclusters to their application in cell imaging, antibacterial systems, and smart diagnostic tools—highlight his scientific vision and methodological rigor. While he is still in the early stages of his independent academic career, his current accomplishments far exceed typical benchmarks for his career stage. The absence of detailed information on awards or project leadership does not overshadow the significance of his contributions, which have already made a measurable impact on the field. Going forward, building on his leadership in research funding, collaboration, and mentorship will further strengthen his academic profile. Overall, Dr. Zhu is an ideal candidate for early-career research excellence awards. His record demonstrates innovation, productivity, and a commitment to impactful, high-quality research that addresses important scientific and societal challenges. With continued support and opportunities, he is poised to make substantial contributions to science and technology on a global scale.

Publications Top Notes

  1. Title: Designing pillar–layered metal–organic frameworks with photo-induced electron transfer interactions between ligands for enhanced photodynamic sterilization and photocatalytic degradation of dyes and antibiotics
    Authors: Zhu, Zhonghong; Li, Yunlan; Wang, Hailing; Liang, Fupei; Zhou, Liya
    Journal: Journal of Colloid and Interface Science
    Year: 2025

  2. Title: Lanthanide Molecular Clusters and Metal-Organic Layers Constructed by Manipulation of Substituents
    Authors: Li, Yunlan; Lan, Hai Fang; Wang, Hailing; Cheng, Lei; Zou, Huahong
    Journal: Inorganic Chemistry
    Year: 2025

  3. Title: Specific smart sensing of electron-rich antibiotics or histidine improves the antenna effect, luminescence, and photodynamic sterilization capabilities of lanthanide polyoxometalates
    Authors: Tang, Mengjuan; Zhu, Zhonghong; Li, Yunlan; Wang, Hailing; Zou, Huahong
    Journal: Journal of Colloid and Interface Science
    Year: 2025
    Citations: 5

  4. Title: Twisted-Planar Molecular Engineering with Sonication-Induced J-Aggregation To Design Near-Infrared J-Aggregates for Enhanced Phototherapy
    Authors: Liu, Yubo; Song, Yuchen; Zhu, Zhonghong; Tang, Ben Zhong; Feng, Guangxue
    Journal: Angewandte Chemie International Edition
    Year: 2025
    Citations: 3

  5. Title: Hourglass-shaped europium cluster-based secondary building unit in metal–organic framework for photocatalytic wastewater purification and sterilization via enhanced reactive oxygen species production
    Authors: Zhang, Guanhuang; Wang, Hailing; Cheng, Lei; Zhu, Zhonghong; Zou, Huahong
    Journal: Journal of Colloid and Interface Science
    Year: 2025
    Citations: 1

  6. Title: Nanoscale Metal-Organic Framework Leveraging Water, Oxygen, and Hydron Peroxide to Generate Reactive Oxygen Species for Cancer Therapy
    Authors: Zhu, Zhonghong; Zhang, Le; Jia, Shaorui; Tang, Ben Zhong; Feng, Guangxue
    Journal: Advanced Functional Materials
    Year: 2025
    Citations: 2

  7. Title: In Situ Coordination-Catalyzed o-Vanillin Underwent a One-Pot Tandem Reaction to Construct Complex Chiral Tetrameric Isomer-Based Hexanuclear Clusters
    Authors: Li, Ruyan; Ai, Jufen; Tao, Jia Yi; Zou, Huahong; Wang, Hailing
    Journal: Inorganic Chemistry
    Year: 2025

Shane Scott | Molecular Biology | Best Researcher Award

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Dr. Shane Scott | Molecular Biology | Best Researcher Award

Medical Student from The Ohio State College of Medicine, United States

Dr. Shane Shakar Scott is a distinguished physician-scientist whose career seamlessly integrates clinical medicine, biomedical research, and health equity advocacy. Currently enrolled in the Medical Scientist Training Program (MSTP) at The Ohio State University College of Medicine, he is pursuing both an MD and a PhD. His doctoral research focuses on the cardiotoxic effects of tyrosine kinase inhibitors and the role of βII-spectrin in heart failure, contributing significantly to the field of cardio-oncology. Dr. Scott’s work has been published in reputable journals, including Heart Failure Clinics, where he co-authored a review on intracellular signaling pathways mediating tyrosine kinase inhibitor cardiotoxicity . Beyond his research, he has demonstrated leadership through roles such as National Delegate for Medical Education at the Association of American Medical Colleges (AAMC) and co-founder of the American Association of Black Physician Scientists. His commitment to mentorship and community service is evident in his involvement with various educational programs and initiatives aimed at increasing diversity in the medical field. Dr. Scott’s multifaceted contributions position him as a leading figure in advancing both scientific knowledge and social equity in healthcare.

Professional Profile

Education

Dr. Scott’s academic journey reflects a steadfast commitment to excellence and interdisciplinary scholarship. He earned his Bachelor of Science degrees in Biochemistry and Chemistry from Brandeis University, graduating with high honors. He then pursued a Master of Science in Medical Sciences at Boston University School of Medicine, where his research centered on the intracellular localization and effects of the TAAR1 receptor. Currently, Dr. Scott is enrolled in the Medical Scientist Training Program at The Ohio State University College of Medicine, undertaking both MD and PhD degrees. His doctoral dissertation, titled “Electrical and Structural Dysfunction Underlying Tyrosine Kinase Inhibitor Cardiotoxicity and βII-spectrin Deficient Heart Failure,” delves into the molecular mechanisms of cardiotoxicity associated with cancer therapies. This rigorous academic foundation equips Dr. Scott with a unique perspective that bridges basic science and clinical application, enhancing his capacity to contribute meaningfully to translational medicine.

Professional Experience

Dr. Scott’s professional experience encompasses a blend of research, teaching, and leadership roles. As a graduate trainee at the Davis Heart and Lung Research Institute, he investigated the cardiotoxic effects of tyrosine kinase inhibitors and the role of βII-spectrin in heart failure. His earlier research at the National Institute of Mental Health focused on the intracellular effects of TAAR1 activation and the axonal trafficking of tyrosine hydroxylase mRNA. In addition to his research endeavors, Dr. Scott has contributed to medical education as a lecturer and course designer, developing curricula aimed at improving awareness and equitable treatment of Black-identified patients. His leadership roles include serving as President of the OSU College of Medicine Class of 2023 and co-founding the American Association of Black Physician Scientists. These experiences underscore his dedication to advancing both scientific inquiry and social justice within the medical community.

Research Interests

Dr. Scott’s research interests lie at the intersection of cardiology, oncology, and molecular biology. He is particularly focused on understanding the mechanisms underlying cardiotoxicity induced by cancer therapies, such as tyrosine kinase inhibitors. His work explores how these treatments affect cardiac signaling pathways and contribute to structural and functional heart abnormalities. Additionally, Dr. Scott investigates the role of βII-spectrin in cardiac dyad organization and its implications for heart failure. His research aims to identify potential therapeutic targets to mitigate adverse cardiac effects in cancer patients, thereby improving their overall treatment outcomes. Through his studies, Dr. Scott contributes to the emerging field of cardio-oncology, which seeks to balance effective cancer treatment with the preservation of cardiovascular health.

Research Skills

Dr. Scott possesses a comprehensive skill set that encompasses various aspects of biomedical research. His expertise includes molecular biology techniques such as qRT-PCR, in situ hybridization, and Western blotting, which he has applied to study gene expression and protein localization. He is proficient in electrophysiological methods, having investigated arrhythmogenic mechanisms in animal models. Dr. Scott has also utilized advanced imaging techniques to assess cardiac structure and function. His experience extends to the development of organelle-targeted FRET reporters for studying intracellular signaling pathways. Furthermore, he has demonstrated competence in designing and conducting translational research studies that bridge bench science and clinical application. These skills enable Dr. Scott to contribute effectively to multidisciplinary research teams and advance our understanding of complex biomedical phenomena.

Awards and Honors

Dr. Scott’s academic and professional achievements have been recognized through numerous awards and honors. He is a recipient of the Cummins Dyche Medical Scholarship and the Viola Cranston Erb Scholarship from The Ohio State College of Medicine. His research excellence earned him the Neff MSTP Travel Award and the DHLRI Graduate Student of the Year Award Finalist designation. Dr. Scott was inducted into the Golden Humanism Honor Society, reflecting his commitment to compassionate patient care. He received the Society of Thoracic Surgery’s Looking to the Future Scholarship and was featured by the Association of American Medical Colleges in an article highlighting his resilience and determination. These accolades underscore his dedication to advancing medical science and education while exemplifying the highest standards of professionalism and humanism.

Conclusion

Dr. Shane Shakar Scott exemplifies the qualities of an outstanding researcher and leader in the medical field. His interdisciplinary approach, combining rigorous scientific investigation with a commitment to social equity, positions him as a transformative figure in healthcare. Through his research on cardiotoxicity and heart failure, Dr. Scott contributes valuable insights that have the potential to improve patient outcomes. His dedication to mentorship, education, and community service reflects a holistic understanding of the physician-scientist’s role. As he continues to bridge the gap between bench research and clinical practice, Dr. Scott’s work will undoubtedly have a lasting impact on both scientific knowledge and the well-being of diverse patient populations.

Publications Top Notes

  1. Title: Intracellular Signaling Pathways Mediating Tyrosine Kinase Inhibitor Cardiotoxicity
    Journal: Heart Failure Clinics
    Year: 2022 (June)
    DOI: 10.1016/j.hfc.2022.02.003
    Author: Shane Shakar Scott

  2. Title: In Vivo to Ex Vivo High Resolution Optical Mapping and Contrast Enhanced Magnetic Resonance Imaging to Reveal Atrial Fibrillation Drivers and Improve Identification of Arrhythmogenic Structural Substrates in Persistent Atrial Fibrillation Canine Model
    Journal: Heart Rhythm
    Year: 2021 (August)
    DOI: 10.1016/j.hrthm.2021.06.937
    Author: Shane Shakar Scott

  3. Title: Comprehensive Evaluation of Electrophysiological and 3D Structural Features of Human Atrial Myocardium with Insights on Atrial Fibrillation Maintenance Mechanisms
    Journal: Journal of Molecular and Cellular Cardiology
    Year: 2021 (February)
    DOI: 10.1016/j.yjmcc.2020.10.012
    Author: Shane Shakar Scott

  4. Title: The Local Expression and Trafficking of Tyrosine Hydroxylase mRNA in the Axons of Sympathetic Neurons
    Journal: RNA
    Year: 2016 (April)
    DOI: 10.1261/rna.053272.115
    Authors: Noreen M. Gervasi; Shane S. Scott; Armaz Aschrafi; Jenna Gale; Sanah N. Vohra; Margaret A. MacGibeny; Amar N. Kar; Anthony E. Gioio; Barry B. Kaplan

Qing-Feng Sun | Physics and Astronomy | Best Researcher Award

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Prof. Qing-Feng Sun | Physics and Astronomy | Best Researcher Award

Professor from School of Physics, Peking University, China

Prof. Qing-Feng Sun is an internationally renowned physicist specializing in quantum transport phenomena. Currently a professor at the International Center for Quantum Materials (ICQM), Peking University, China, his research spans quantum dots, topological insulators, superconductors, graphene systems, and spin-orbit interactions. He is widely respected for his contributions to understanding fundamental quantum processes and has produced a substantial body of highly cited work in top-tier journals. Prof. Sun has significantly advanced the theoretical understanding of spin currents, quantum Hall effects, and mesoscopic transport systems. His career, marked by early academic excellence and international postdoctoral experience, has positioned him at the forefront of condensed matter research. Over the years, Prof. Sun has actively mentored PhD students and postdoctoral researchers, helping build a strong research community around quantum transport topics. His work not only addresses fundamental physics but also provides theoretical frameworks that may guide future technological innovations in quantum computing, spintronics, and advanced materials. Recognized by several prestigious national awards, Prof. Sun’s standing in the scientific community reflects both the depth and impact of his research. His continued output and leadership make him an exemplary candidate for top research honors, including the Best Researcher Award.

Professional Profile

Education

Prof. Qing-Feng Sun completed all his higher education at Peking University, one of China’s top academic institutions. He earned his Bachelor of Science degree in Physics between 1991 and 1995, developing a solid foundation in fundamental physical theories and experimental methods. Building on this, he pursued his doctoral studies at the same university from 1995 to 2000, obtaining a Ph.D. in Physics. During his doctoral work, Prof. Sun focused on condensed matter physics, particularly quantum transport, which would become the central theme of his later career. His Ph.D. research was so distinguished that it earned him the Excellent National Doctoral Dissertation award in 2002, signaling early recognition of his research talents by the Chinese scientific community. This rigorous educational background gave Prof. Sun both the theoretical grounding and research discipline needed to excel in complex and abstract areas of quantum physics. His time at Peking University, a hub for China’s elite scientific minds, positioned him well for postdoctoral work abroad and for a lifelong academic career. His education continues to underpin his innovative contributions to the global field of quantum transport.

Professional Experience

Prof. Qing-Feng Sun’s professional experience reflects both international engagement and long-term academic leadership. After completing his Ph.D. in 2000, he pursued postdoctoral research at McGill University in Canada (2000–2003), where he expanded his expertise and built important international collaborations. Returning to China, he was appointed Professor at the Institute of Physics, Chinese Academy of Sciences (IoP, CAS) from 2003 to 2013. During this period, he further developed his research profile, producing numerous influential publications and establishing himself as a leading figure in quantum transport. In 2013, he moved to Peking University’s International Center for Quantum Materials (ICQM), where he has continued as a full professor. At ICQM, he leads research teams, mentors doctoral students and postdoctoral fellows, and contributes to China’s rising prominence in condensed matter and quantum materials research. His positions reflect a balance of hands-on research, supervision, and international scientific collaboration. Prof. Sun’s ability to sustain a dynamic and productive research career over more than two decades, across both national and international settings, highlights his resilience, adaptability, and strong academic leadership.

Research Interests

Prof. Qing-Feng Sun’s research interests are centered on quantum transport phenomena, a core topic in condensed matter physics. His work spans quantum dots, topological insulators, superconductors, graphene, spin-orbit coupled systems, and even biomolecular systems like DNA. A common theme across his research is the investigation of how electrons behave under quantum mechanical rules when moving through nanoscale systems or complex materials. He explores the interplay of spin, charge, and quantum coherence, advancing understanding of phenomena like the quantum spin Hall effect, Andreev reflections, persistent spin currents, and spin-selective electron transport. Prof. Sun’s research also connects to key emerging areas, including quantum information processing and spintronics, providing theoretical frameworks that support experimental progress. His interdisciplinary curiosity has led him to explore bio-inspired systems, such as electron transport in DNA helices, reflecting an openness to cross-disciplinary questions. With deep theoretical insights and a focus on explaining experimental observations, Prof. Sun’s research interests place him at the intersection of fundamental physics and future technological innovation. His work continues to shape how the scientific community understands and applies quantum transport phenomena in various cutting-edge fields.

Research Skills

Prof. Qing-Feng Sun possesses advanced research skills in theoretical and computational condensed matter physics. His expertise includes analytical modeling of quantum transport systems, developing and solving complex quantum mechanical equations, and applying advanced mathematical frameworks to explain experimental findings. He is highly skilled in working with quantum dots, graphene, topological insulators, and superconducting systems, understanding the role of spin-orbit coupling, quantum coherence, and dephasing effects. Prof. Sun’s ability to connect theoretical models with experimental realities allows him to propose innovative hypotheses and guide empirical investigations. Beyond technical modeling, he has strong skills in academic writing and scientific communication, producing clear, rigorous, and widely cited publications in leading physics journals. His mentoring experience reflects additional skills in guiding research projects, supervising experimental collaborations, and training young researchers in advanced topics. He also demonstrates strong collaborative abilities, having worked across international research groups and maintained productive partnerships. Altogether, Prof. Sun’s research skills position him as a leading figure capable of driving forward both theoretical breakthroughs and meaningful contributions to the broader scientific community.

Awards and Honors

Prof. Qing-Feng Sun has received several prestigious honors that underscore his excellence and impact in the field of physics. In 2002, he was awarded the Excellent National Doctoral Dissertation, marking national recognition for the exceptional quality of his Ph.D. work. This early achievement set the tone for a career marked by consistent excellence. In 2005, he was named an NSFC Distinguished Young Scholar by the National Natural Science Foundation of China, an honor given to young researchers demonstrating outstanding creativity and potential for long-term impact. Later, in 2013, he was appointed a Cheung Kong Scholar, one of the most prestigious academic titles in China, reflecting his leadership and influential contributions to the country’s scientific landscape. These awards highlight not only Prof. Sun’s individual research achievements but also his broader role in advancing China’s standing in global scientific research. Together, they serve as testament to his sustained innovation, productivity, and reputation in the scientific community. His record of honors reinforces his position as a top-tier candidate for further recognition through international awards like the Best Researcher Award.

Conclusion

In conclusion, Prof. Qing-Feng Sun stands out as an exceptional researcher whose career combines deep theoretical insights, a strong publication record, international collaborations, and national recognition. His work on quantum transport has had a significant impact on the global scientific community, offering key advances in understanding quantum coherence, spin transport, and the behavior of complex materials. With a background rooted in rigorous training at Peking University, international postdoctoral experience, and two decades of academic leadership, Prof. Sun has demonstrated resilience, adaptability, and innovation. While there is room for even greater interdisciplinary outreach and engagement with applied or technological research, his achievements already firmly establish him as a leader in his field. His numerous awards, high-profile publications, and contributions to mentoring the next generation of physicists reflect a career of sustained excellence. Prof. Sun is unquestionably a deserving candidate for the Best Researcher Award, representing not just personal scientific achievement but also the advancement of physics at both national and international levels.

Publications Top Notes

  1. Title: Nanoscale Polymorph Engineering of Metal-Correlated Insulator Junctions in Monolayer NbSe₂
    Authors: Chen, Yaoyao; Dai, Yixin; Zhang, Yu; Sun, Qingfeng; Wang, Yeliang
    Journal: ACS Nano
    Year: 2025

  2. Title: Superconducting lens and Josephson effect in AA-stacked bilayer graphene
    Authors: Lu, Weitao; Fang, Tiefeng; Sun, Qingfeng
    Journal: Physical Review B
    Year: 2025

  3. Title: Orbital hybridization in graphene-based artificial atoms
    Authors: Mao, Yue; Ren, Huiying; Zhou, Xiaofeng; He, Lin; Sun, Qingfeng
    Journal: Nature
    Year: 2025

  4. Title: Frustration-enhanced persistent currents in correlated trimer nanorings
    Authors: Fang, Tiefeng; Lu, Weitao; Guo, Aimin; Sun, Qingfeng
    Journal: Physical Review B
    Year: 2025

  5. Title: Design of a Josephson diode based on double magnetic impurities
    Authors: Sun, Yufei; Mao, Yue; Sun, Qingfeng
    Journal: Physical Review B
    Year: 2025

  6. Title: Edge supercurrent in Josephson junctions based on topological materials (Review)
    Authors: Qi, Junjie; Chen, Chuizhen; Song, Juntao; Sun, Qingfeng; Xie, Xincheng
    Year: 2025
    Citations: 2

  7. Title: Spin splitting Nernst effect in altermagnets
    Authors: Yi, Xing Jian; Mao, Yue; Lu, Xiancong; Sun, Qingfeng
    Journal: Physical Review B
    Year: 2025

  8. Title: Altermagnetism-induced parity anomaly in weak topological insulators
    Authors: Wan, Yuhao; Sun, Qingfeng
    Journal: Physical Review B
    Year: 2025
    Citations: 1

  9. Title: Tunable Quantum Confinement in Individual Nanoscale Quantum Dots via Interfacial Engineering
    Authors: Ren, Huiying; Mao, Yue; Ren, Yaning; Sun, Qingfeng; He, Lin
    Journal: ACS Nano
    Year: 2025
    Citations: 1

  10. Title: Phase transitions in quantum dot-Majorana zero mode coupling systems (Open access)
    Authors: Mao, Yue; Sun, Qingfeng
    Journal: SciPost Physics Core
    Year: 2025

Weilin Liu | Neuroscience | Best Researcher Award

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Prof. Weilin Liu | Neuroscience | Best Researcher Award

The Institution of Rehabilitation Industry from Fujian University of Traditional Chinese Medicine, China

Weilin Liu is a distinguished professor at the Institute of Rehabilitation Industry, Fujian University of Traditional Chinese Medicine. His primary research focuses on the rehabilitation of cognitive impairments in elderly individuals and stroke patients, particularly through non-drug therapies like acupuncture and mind-body exercises. Liu’s work aims to explore the neuromolecular biological mechanisms underlying cognitive decline and synaptic plasticity, providing new insights into therapeutic strategies for cognitive impairments. With over 30 academic papers published, he is recognized as one of the top young talents in China, actively contributing to both scientific research and the advancement of rehabilitation methods. Liu has held prominent editorial positions, including associate editor-in-chief of Frontiers in Cellular Neuroscience, and has received multiple awards, including the Science and Technology Award from the Chinese Rehabilitation Medicine Association. His research is grounded in the pursuit of practical, non-invasive solutions to neurological rehabilitation, with a special focus on understanding and repairing cognitive dysfunctions.

Professional Profile

Education

Weilin Liu completed his undergraduate and graduate education at leading institutions in China, where he developed a strong foundation in traditional Chinese medicine and neuroscience. Liu later earned his Ph.D. in a relevant field, which equipped him with the necessary expertise to investigate cognitive impairments and their rehabilitation. His academic background has been pivotal in shaping his research approach, combining both modern scientific methods and traditional Chinese healing techniques. This academic experience provided him with the necessary tools to understand the biological mechanisms of cognitive decline and to innovate in non-pharmacological interventions like acupuncture. Liu’s education has supported his development into a leading researcher in his field, emphasizing the integration of different scientific disciplines to address complex neurological issues.

Professional Experience

Weilin Liu has had a distinguished professional career, contributing significantly to the field of cognitive rehabilitation. He holds a professorship at the Institute of Rehabilitation Industry at Fujian University of Traditional Chinese Medicine, where he has been a key figure in both academic research and practical applications in the field of rehabilitation. Liu has led multiple research projects focused on the neurological mechanisms of cognitive impairment and rehabilitation, particularly in elderly individuals and stroke patients. His professional experience extends to significant leadership roles in scientific journals, including serving as associate editor-in-chief of Frontiers in Cellular Neuroscience and a young editorial board member of Aging and Disease. Liu’s professional expertise spans across neurology, rehabilitation, and traditional Chinese medicine, making him a well-rounded and influential figure in his field.

Research Interests

Weilin Liu’s research interests primarily lie in the rehabilitation of cognitive impairments, particularly in elderly populations and stroke patients. His work focuses on non-drug therapies, such as acupuncture and mind-body exercises, as well as the underlying neuromolecular biological mechanisms that contribute to cognitive decline. Liu is particularly interested in the role of synaptic plasticity in cognitive impairment and the potential for repairing damage through innovative therapeutic interventions. His research also explores the broader neurobiological mechanisms that underlie conditions like Alzheimer’s disease and stroke-related cognitive dysfunctions. Liu’s work is at the intersection of traditional Chinese medicine and modern neuroscience, with a focus on non-invasive, practical therapies that can be applied to real-world clinical settings.

Research Skills

Weilin Liu has developed a wide array of research skills throughout his career. He is highly skilled in experimental design and implementation, with a focus on preclinical animal models used to study cognitive impairments and their rehabilitation. Liu’s expertise includes neurobiology, synaptic plasticity, and neuromolecular biology, which he uses to explore the mechanisms behind cognitive decline. He is proficient in techniques such as electroacupuncture, optogenetics, and behavioral testing, which are central to his research on cognitive rehabilitation. Liu’s interdisciplinary approach combines traditional Chinese medicine with cutting-edge neuroscience, allowing him to develop novel therapeutic interventions. Additionally, his leadership roles in scientific journals demonstrate his skills in research dissemination and academic collaboration, ensuring the impact of his work on a global scale.

Awards and Honors

Weilin Liu has received numerous awards and honors in recognition of his groundbreaking work in the field of cognitive rehabilitation. Among the most notable are the first prize of the Science and Technology Award from the Chinese Rehabilitation Medicine Association and the Fujian Youth Science and Technology Award. Liu’s exceptional research achievements have also earned him the Fujian Yunsheng Youth Science and Technology Award, among others. His recognition as one of the top young talents in China’s national talent programs, including the “Young Eagle Program” in Fujian Province, highlights his prominence in the scientific community. These accolades underscore the impact of Liu’s research and his leadership within the fields of rehabilitation and neuroscience, particularly his innovative work on non-pharmacological treatments for cognitive impairments.

Conclusion

Weilin Liu is a pioneering figure in the field of cognitive rehabilitation, with a focus on non-drug therapies such as acupuncture and mind-body exercises. His interdisciplinary approach, combining traditional Chinese medicine with modern neuroscience, allows for novel therapeutic strategies that address cognitive impairments in elderly individuals and stroke patients. Liu’s academic and professional experience has earned him numerous accolades and leadership roles in scientific publishing, further cementing his reputation as a top researcher in his field. With over 30 published papers and several prestigious awards, Liu’s contributions to rehabilitation science are significant and impactful. His future research holds promise for further advancements in cognitive rehabilitation, particularly in non-invasive, accessible therapies that could transform clinical practices worldwide.

Publications Top Notes

  1. In Situ Recovery of Serotonin Synthesis by a Tryptophan Hydroxylase-Like Nanozyme for the Treatment of Depression
    Authors: Xiao Fang, Yue Wu, Yaling Dai, Chunhua Lu, Huanghao Yang
    Year: 2025

  1. Acute Treatment with Salvianolic Acid A Produces Neuroprotection in Stroke Models by Inducing Excitatory Long-Term Synaptic Depression
    Authors: Jinnan Li, Niya Wang, Qi Huang, Baoci Shan, Lin Xu
    Year: 2025

  2. Tai Chi-Induced Exosomal LRP1 is Associated With Memory Function and Hippocampus Plasticity in aMCI Patients
    Authors: Miaoran Lin, Weilin Liu, Chuyi Ma, Zhifu Wang, Lidian Chen
    Year: 2024
    Citations: 4

  3. Investigating combined acupuncture and transcranial direct current stimulation in patients with poststroke shoulder pain from China: protocol for a randomised controlled trial
    Authors: Jincheng Chen, Zhigang Lin, Shuijin Chen, Yijing Jiang, Shanli Yang
    Year: 2024
    Citations: 1

  1. Electroacupuncture activates AMPKα1 to improve learning and memory in the APP/PS1 mouse model of early Alzheimer’s disease by regulating hippocampal mitochondrial dynamics
    Authors: Weiwei Jia, Huawei Lin, Minguang Yang, Cong Chen, Weilin Liu
    Year: 2024

  2. Electroacupuncture improves vascular cognitive impairment no dementia: A Randomized Clinical Trial
    Authors: Ruizhu Lin, Yaling Dai, Jianfeng Xu, Weilin Liu, Lidian Chen
    Year: 2024
    Citations: 2

  3. Gut microbiota and skeletal muscle protein metabolism in sarcopenia: research progress
    Authors: Qing Xiang, Yue Hu, Weilin Liu
    Year: 2024

  1. Electroacupuncture regulates Rab5a-mediating NGF transduction to improve learning and memory ability in the early stage of AD mice
    Authors: Jianhong Li, Minguang Yang, Yaling Dai, Jing Tao, Weilin Liu
    Year: 2024
    Citations: 1

  1. Effects of Exercise Training Under Hypoxia Versus Normoxia on Cognitive Function in Clinical and Non-Clinical Populations: A Systematic Review and Meta-analysis
    Authors: Yanting Lin, Jiamin Yan, Xiaoqin Guo, Weilin Liu, Lidian Chen
    Year: 2024
    Citations: 3

Xia Chen | Medicine and Dentistry | Best Researcher Award

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Ms. Xia Chen | Medicine and Dentistry |  Best Researcher Award

Professor from Yunnan Provincial Hospital of Chinese Medicine, China

Xia Chen is an accomplished chief physician, professor, and master’s supervisor, specializing in integrated Chinese and Western medicine, particularly in gastroenterology. Born in 1978 in Yunnan, China, she has devoted more than two decades to clinical practice, teaching, and scientific research. Currently, she serves as the leader of the Department of Gastroenterology of Traditional Chinese Medicine at Yunnan Provincial Hospital of Chinese Medicine. She has gained recognition as an Outstanding Young Practitioner of Chinese Medicine in Yunnan Province and holds membership in the Hepatobiliary Disease Branch of the Chinese Medical Association. Her career focuses on the diagnosis and treatment of digestive diseases using both traditional Chinese medicine and Western medicine approaches. Xia Chen’s contribution extends beyond clinical work to research projects, drug trials, and academic publishing. Her ability to bridge traditional and modern medical practices has made her a notable figure in her field. Over the years, she has led and participated in numerous prestigious research projects and has authored or co-authored several scholarly works. Xia Chen’s career reflects dedication to improving healthcare outcomes through integrated medicine and advancing research in digestive health, making her a leader in her specialty and an inspiration for future researchers and clinicians.

Professional Profile

Education

Although detailed information about Xia Chen’s educational background is not explicitly provided, her current standing as a chief physician and professor suggests a comprehensive academic journey in medicine, likely beginning with a bachelor’s degree in traditional Chinese medicine or clinical medicine. Following her undergraduate studies, it is plausible she pursued further specialization, completing advanced degrees, possibly a master’s degree or doctorate, focusing on integrated Chinese and Western medicine with a specialty in digestive diseases. Xia Chen’s position as a master’s supervisor also indicates her formal academic qualification aligns with national standards for academic leadership roles in China, which typically require at least a master’s degree combined with significant clinical expertise. Her education would have provided her a strong foundation in traditional Chinese medical principles, combined with extensive training in modern clinical practices, pharmacology, and research methodology. Given her leadership in research projects and teaching, she likely continued her professional development through certifications, clinical fellowships, and continuous medical education programs. Her educational journey underpins her expertise in gastroenterology and serves as the backbone for her clinical, academic, and research excellence.

Professional Experience

Xia Chen has built a remarkable professional career, accumulating over 20 years of experience in clinical practice, teaching, and research in the field of integrated Chinese and Western medicine. She currently serves as the leader of the Department of Gastroenterology of Traditional Chinese Medicine at Yunnan Provincial Hospital of Chinese Medicine. Her daily responsibilities include diagnosing and treating patients with complex digestive diseases, mentoring master’s students, and overseeing research activities. She has established herself as a specialist who skillfully combines traditional Chinese medical therapies with modern Western treatments, offering holistic and effective patient care. Xia Chen’s leadership extends to supervising clinical trials and participating in national Phase II, III, and IV drug research studies. Her practical skills are complemented by her academic contributions, which include teaching future healthcare professionals and guiding research initiatives. Furthermore, she actively contributes to healthcare policy improvements through her roles in professional associations such as the Hepatobiliary Disease Branch of the Chinese Medical Association. Her professional experience highlights her comprehensive expertise across clinical, academic, and scientific domains, making her a pivotal figure in advancing the integration of traditional Chinese medicine with contemporary medical science.

Research Interests

Xia Chen’s research interests focus on the integration of traditional Chinese medicine and Western medicine approaches to digestive diseases. A significant part of her work explores the therapeutic effects of natural medicines on intestinal dynamics. Her research aims to scientifically validate the efficacy of traditional remedies and their mechanisms of action, thereby bridging the gap between ancient practices and modern clinical science. Additionally, Xia Chen is deeply interested in clinical trials related to new drug developments, having participated in numerous national Phase II, III, and IV studies. Her research spans studying gastrointestinal motility disorders, chronic digestive conditions, and hepatobiliary diseases. She is particularly motivated by the desire to develop more effective, less invasive, and side-effect-minimized treatments through integrative approaches. Another important research area for Xia Chen is understanding how traditional Chinese formulations can complement or enhance the effects of Western pharmacological interventions. Her research is highly practical, patient-centered, and innovative, targeting improvements in clinical outcomes. With a growing emphasis on evidence-based medicine, her work contributes significantly to validating and modernizing traditional Chinese medicinal practices while maintaining their historical integrity and therapeutic richness.

Research Skills

Xia Chen possesses a broad range of research skills that have been instrumental in her professional success. She demonstrates expertise in designing and conducting clinical trials, especially those combining traditional Chinese medicinal approaches with Western methodologies. Her skill set includes protocol development, patient recruitment and management, data analysis, and reporting in accordance with national and international standards. She is proficient in evaluating the pharmacological effects of natural medicines and their applications in digestive health. Xia Chen’s publication record highlights her ability to carry out longitudinal studies and synthesize findings for publication in peer-reviewed journals. Her role as a master’s supervisor also reflects her ability to guide young researchers in research design, methodology, and thesis writing. Furthermore, her participation in over ten national drug studies indicates advanced skills in regulatory compliance, clinical pharmacology, and interdisciplinary collaboration. Xia Chen’s integrated approach to traditional and modern research paradigms exemplifies her unique strengths. Her research methodology is thorough, combining qualitative insights from traditional Chinese medicine with the quantitative rigor required in modern clinical research. These combined skills make her a formidable researcher capable of making impactful contributions to the field.

Awards and Honors

Throughout her distinguished career, Xia Chen has received notable awards and honors recognizing her professional and academic contributions. She has been named an Outstanding Young Practitioner of Chinese Medicine in Yunnan Province, an accolade that underscores her clinical excellence, research innovation, and contributions to the advancement of traditional Chinese medicine. Her appointment as the leader of the Department of Gastroenterology of Traditional Chinese Medicine at the Yunnan Provincial Hospital of Chinese Medicine is itself a recognition of her expertise and leadership capabilities. Furthermore, her active membership in the Hepatobiliary Disease Branch of the Chinese Medical Association reflects national recognition of her skills and knowledge. These honors highlight her respected position within the Chinese medical community. They also affirm her commitment to bridging traditional Chinese medicine with modern clinical practices. While specific awards for research publications or international recognition have not been detailed, her extensive leadership in research projects and contribution to multiple monographs reinforce her academic and professional stature. Xia Chen’s awards and honors validate her significant and ongoing impact in the field of integrated medicine and gastroenterology.

Conclusion

Xia Chen is a highly accomplished clinician, educator, and researcher whose career embodies excellence in integrating traditional Chinese and Western medical practices. Her dedication to advancing digestive health through innovative, interdisciplinary methods sets her apart as a leader in her field. With over two decades of professional experience, leadership in major research projects, and numerous scholarly contributions, she has significantly impacted both clinical practice and academic research. Her recognition as an Outstanding Young Practitioner of Chinese Medicine and leadership roles within national medical organizations reflect her esteemed reputation. While opportunities exist for expanding her international research presence, Xia Chen’s current achievements already demonstrate her remarkable expertise, commitment, and influence. She serves as a bridge between ancient medical wisdom and contemporary science, promoting holistic and evidence-based healthcare solutions. As she continues to build on her impressive body of work, Xia Chen is poised to make even greater contributions to global medical science, ensuring that traditional Chinese medicine remains relevant, respected, and scientifically validated in the modern era.

Publications Top Notes

  • Title: Quercetin Inhibits Cardiomyocyte Apoptosis via Sirt3/SOD2/Mitochondrial Reactive Oxygen Species During Myocardial Ischemia–Reperfusion Injury

  • Authors: Xiong Da, Wang Xin, Wang Haiyu, Zhao Zicong, Ren Wenjun

  • Year: 2024

  • Citations: 6

Mayuri Gupta | Materials Science | Best Researcher Award

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Dr. Mayuri Gupta | Materials Science | Best Researcher Award

Assistant Scientist from Shriram Institute for Industrial Research, India

Dr. Mayuri Gupta is an accomplished research associate with over 15 years of experience in the field of material science, particularly in polymer composites and medical applications. She has worked with prestigious research organizations, contributing to the development of several groundbreaking technologies. Dr. Gupta’s expertise spans areas such as bio-degradable composites, dental cement formulations, and medical-grade materials, showcasing her technical proficiency and ability to transform innovative ideas into real-world applications. She is currently serving as an Assistant Scientist ‘A’ at the Shriram Institute for Industrial Research, where she plays a key role in leading research projects funded by various national agencies like ICMR, DRDO, and DST. Dr. Gupta’s academic background, combined with her strong industry involvement, positions her as a distinguished researcher in the realm of applied sciences.

Professional Profile

Education

Dr. Mayuri Gupta’s educational background includes a Ph.D. in Polymer Composite Development for Medical Applications, which she is completing at Amity University, Noida, in 2025. She earned her Master’s degree in Chemical Science from Dr. B. R. Ambedkar University, Agra, in 2004, and her Bachelor’s degree in ZBC from the same university in 2002. Dr. Gupta’s educational journey has provided her with a strong foundation in chemical sciences, preparing her for her role as a leader in research and development, particularly in material science.

Professional Experience

Dr. Gupta’s professional journey spans over 15 years, starting as a Lecturer at T.R. Girls Degree College in Aligarh (2007-2008). Since 2008, she has held the position of Assistant Scientist ‘A’ at the Shriram Institute for Industrial Research, where she has successfully managed and contributed to numerous high-impact research projects. Her work includes the development of new materials such as bio-degradable composites, LED-curable dental cement, and low-cost medical products like diapers for low-birth-weight infants. Dr. Gupta’s expertise in research, coupled with her experience in managing funded projects, showcases her as a key contributor to the field.

Research Interests

Dr. Gupta’s primary research interests revolve around the development and enhancement of polymer composites, with a particular focus on medical applications. She is deeply involved in the design of bio-degradable materials, dental cements, and medical-grade polymers. Her work extends to nano-fluids with enhanced thermal conductivity and bio-functional textiles, all of which aim to improve the quality and performance of medical products. Dr. Gupta also explores advanced material formulations for everyday products, such as food packaging and contact lenses, highlighting her versatility in materials research.

Research Skills

Dr. Gupta possesses a wide range of research skills, particularly in the area of analytical techniques and material development. She is proficient in using advanced instruments such as FTIR, UV-Visible, GC-MS, HPLC, and DSC, enabling her to conduct precise and detailed analyses. Additionally, Dr. Gupta has experience in method development for various formulations, especially in the field of pharmaceuticals and food packaging. Her ability to innovate and create new materials based on market needs demonstrates her creativity and technical expertise in research and development. She also excels in research proposal writing and working with national research funding agencies.

Awards and Honors

Dr. Gupta’s career has been marked by significant achievements in her field, including several sponsored research projects funded by renowned organizations such as ICMR, DRDO, and DST. While there is no specific mention of awards in the provided CV, her active involvement in high-profile research projects and her leadership in innovative material development reflect a track record of recognition and success in her professional career. Her commitment to advancing material science is further demonstrated by her research presentations at both national and international conferences.

Conclusion

Dr. Mayuri Gupta is a highly dedicated and accomplished researcher in the field of material science, with a particular focus on polymer composites and medical applications. With over 15 years of experience, she has consistently contributed to the development of innovative technologies with real-world applications. Her extensive research, technical expertise, and leadership in various national-funded projects highlight her potential to make lasting contributions to the field. While she could enhance her profile further with more publications in peer-reviewed journals and greater involvement in mentorship, Dr. Gupta is highly recommended for recognition as a Best Researcher due to her significant achievements and ongoing contributions to research and development.

Publications Top Notes

  1. Effect of NVP, HEMA, and Bis‐GMA grafting on thermal and physical properties of poly(AA‐co‐IA)
    Macromolecular Symposia
    Type: Conference Proceedings
    Role: Writing – Original Draft
    Year: 2025

  2. Asian Journal of Dental Sciences – Certificate of Excellence in Reviewing awarded
    Type: Review
    Role: Writing – Review & Editing
    Year: 2025

  3. Development of polymer composite for medical application
    Doctoral Thesis (Ph.D.)
    Type: Dissertation or Thesis
    Role: Writing – Original Draft
    Year: 2024

  4. Effect of curing time on physico-mechanical properties on dental composite
    Journal of Polymer & Composites
    Type: Journal Article
    Role: Writing – Original Draft, Review & Editing
    Year: 2022

  5. Synthesis of Bis-GMA grafted co-polymer of acrylic–itaconic acid and its composite
    Polymer Science Series B
    Type: Journal Article
    Role: Writing – Original Draft, Review & Editing
    Year: 2022

Maizura Murad | Biological Sciences | Best Researcher Award

Posted on by Shen Awards

Dr. Maizura Murad | Biological Sciences | Best Researcher Award

Lecturer and researcher from University Sains Malaysia, Malaysia

Dr. Maizura Murad is a distinguished academic specializing in food sensory analysis, food processing, and the antioxidant properties of food. Since June 25, 2013, she has been serving at the School of Industrial Technology, Universiti Sains Malaysia (USM). In her role, Dr. Maizura provides invaluable assistance and supervision to both undergraduate and postgraduate students, particularly in the realm of food sensory analyses. Her dedication to research is evident through her numerous publications in international peer-reviewed journals, focusing on sensory evaluations of food. Beyond her academic pursuits, Dr. Maizura is committed to advancing the field of food science, contributing significantly to the understanding of how food processing impacts sensory qualities and antioxidant properties.

Professional Profile

Education

Dr. Maizura Murad’s academic journey reflects her deep commitment to the field of food science and technology. She earned her Bachelor of Science degree in Food Quality Management from Universiti Teknologi MARA (UiTM) in Malaysia. Pursuing further specialization, she obtained her Master’s degree in Food Technology from Universiti Sains Malaysia (USM). Culminating her formal education, Dr. Maizura achieved a Ph.D. in Food Science from Universiti Kebangsaan Malaysia (UKM). This robust educational foundation has equipped her with comprehensive knowledge and expertise, enabling her to make significant contributions to the field of food sensory analysis and processing.

Professional Experience

Dr. Maizura Murad has been an integral part of Universiti Sains Malaysia (USM) since June 25, 2013, where she serves at the School of Industrial Technology. In her capacity, she supervises and mentors both undergraduate and postgraduate students, particularly in the area of food sensory analyses. Her role encompasses not only teaching but also guiding research projects that delve into the sensory evaluation of food products. Dr. Maizura’s professional experience is marked by her dedication to fostering a comprehensive understanding of food processing and its impact on sensory qualities, thereby preparing her students to excel in the food science industry.

Research Interests

Dr. Maizura Murad’s research interests are centered around food sensory analysis, food processing, and the antioxidant properties of food. She is particularly intrigued by how different processing methods influence the sensory attributes and nutritional quality of food products. Her work aims to bridge the gap between food processing techniques and consumer perception, ensuring that processed foods meet both quality standards and consumer expectations. By focusing on antioxidant properties, Dr. Maizura contributes to the development of healthier food options, emphasizing the importance of nutrition alongside sensory appeal.

Research Skills

Dr. Maizura Murad possesses a robust set of research skills honed through years of academic and professional experience. Her expertise lies in conducting comprehensive food sensory evaluations, utilizing both qualitative and quantitative methodologies to assess consumer preferences and perceptions. She is adept at designing and implementing experiments that explore the effects of various food processing techniques on sensory attributes and antioxidant properties. Dr. Maizura’s proficiency in statistical analysis enables her to interpret complex data effectively, drawing meaningful conclusions that contribute to the advancement of food science.

Awards and Honors

Specific details regarding awards and honors received by Dr. Maizura Murad are not readily available in the provided sources. However, her extensive publication record in international peer-reviewed journals and her longstanding role at Universiti Sains Malaysia (USM) reflect her esteemed position in the academic community. Her contributions to food sensory analysis and processing have undoubtedly garnered recognition and respect among her peers and students alike.

Conclusion

Dr. Maizura Murad’s dedication to the field of food science is evident through her extensive research, teaching, and mentorship roles at Universiti Sains Malaysia (USM). Her expertise in food sensory analysis, processing, and antioxidant properties has significantly contributed to the understanding of how processing techniques affect food quality and consumer perception. By bridging the gap between scientific research and practical applications, Dr. Maizura plays a pivotal role in advancing food technology and ensuring the development of nutritious and appealing food products.

Publications Top Notes

  • Title: Total phenolic content and antioxidant activity of kesum (Polygonum minus), ginger (Zingiber officinale) and turmeric (Curcuma longa) extract
    Authors: M. Maizura, A. Aminah, W.M. Wan Aida
    Year: 2011
    Citations: 438

  • Title: Antibacterial activity and mechanical properties of partially hydrolyzed sago starch–alginate edible film containing lemongrass oil
    Authors: M. Maizura, A. Fazilah, M.H. Norziah, A.A. Karim
    Year: 2007
    Citations: 382

  • Title: Physical and mechanical properties of sago starch–alginate films incorporated with calcium chloride
    Authors: A. Fazilah, M. Maizura, A. Abd Karim, K. Bhupinder, B. Rajeev
    Year: 2011
    Citations: 71

  • Title: Film Incorporated with Lemongrass (Cymbopogon citratus) Oil
    Authors: M. Maizura, A. Fazilah, M.H. Norziah, A.A. Karim
    Year: 2008
    Citations: 47

  • Title: Physicochemical properties and sensory acceptability of pineapples of different varieties and stages of maturity
    Authors: R. Siti Rashima, M. Maizura, W.M. Wan Nur Hafzan, H. Hazzeman
    Year: 2019
    Citations: 33

  • Title: The use of salt-coating to improve textural, mechanical, cooking and sensory properties of air-dried yellow alkaline noodles
    Authors: S.Y. Yeoh, M. Lubowa, T.C. Tan, M. Murad, A.M. Easa
    Year: 2020
    Citations: 32

  • Title: Influence of sodium chloride treatment and polysaccharides as debittering agent on the physicochemical properties, antioxidant capacity and sensory characteristics of bitter melon
    Authors: R. Siti Rashima, M. Maizura, W.M. Kang, A. Fazilah, L.X. Tan
    Year: 2017
    Citations: 30

  • Title: The development of legume-based yogurt by using water kefir as starter culture
    Authors: X.X. Lim, W.Y. Koh, U. Uthumporn, M. Maizura, W.I. Wan Rosli
    Year: 2019
    Citations: 26

  • Title: Physico-chemical and antioxidant properties of eggplant flour as a functional ingredient
    Authors: U. Uthumporn, A. Fazilah, A.Y. Tajul, M. Maizura, A.S. Ruri
    Year: 2016
    Citations: 26

  • Title: A review of natural cheese and imitation cheese
    Authors: A. Mohd Shukri, A.K. Alias, M. Murad, K.S. Yen, L.H. Cheng
    Year: 2022
    Citations: 22