Assoc. Prof. Dr. Xiao Hu | Innovative Leadership | Best Researcher Award

Assoc. Prof. Dr. Xiao Hu | Innovative Leadership | Best Researcher Award

Zhejiang Sci-Tech University, China

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Early Academic Pursuits 🎓

Born on March 29, 1992, in China, Xiao Hu exhibited an early passion for engineering and fluid mechanics. His academic journey was shaped by an insatiable curiosity for understanding the complexities of multiphase flow, numerical simulations, and precision measurement techniques. From his undergraduate years, Hu demonstrated a keen interest in the intersection of physics and engineering, particularly in the dynamics of fluid interactions at microscopic and macroscopic levels. His advanced studies culminated in a Ph.D., where he conducted pioneering research on flow precision measurement and numerical modeling.

During his doctoral research, Hu explored high-resolution flow measurement methods, focusing on achieving greater accuracy in detecting and analyzing multiphase flows. This work laid the foundation for his expertise in computational simulations, helping bridge the gap between theoretical modeling and practical applications in engineering.

Professional Endeavors ⚙️

As an Associate Professor, Xiao Hu has devoted his career to the advancement of multiphase flow measurement technology, precise bubble manipulation, and energy-efficient desalination techniques. His research spans a broad spectrum of engineering applications, from refining industrial flow measurement to developing innovative membrane components for seawater desalination. His work in high spatiotemporal resolution flow precision measurement has contributed significantly to the accuracy of fluid dynamics studies, benefiting various industries including oil and gas, water treatment, and renewable energy.

Beyond academia, Hu actively collaborates with industry leaders, ensuring that his research has practical applications. His contributions to precision measurement technologies have influenced the development of cutting-edge sensors and diagnostic tools used in critical engineering sectors.

Contributions and Research Focus 🔬

Xiao Hu’s research is centered around four primary areas:

1️⃣ Multiphase Flow Measurement Technology & Numerical Simulation – His groundbreaking work in computational modeling and experimental fluid dynamics has improved the accuracy of multiphase flow assessments, benefiting industries that rely on precise fluid measurements.

2️⃣ High Spatiotemporal Resolution Flow Precision Measurement – By integrating advanced sensor technologies and imaging techniques, Hu has developed innovative methods to capture fluid dynamics with unprecedented detail. His contributions are particularly valuable in sectors such as aerospace, biomedical engineering, and energy production.

3️⃣ Precise Bubble Manipulation Technology – His expertise in bubble dynamics has opened new possibilities in microfluidics and materials science. By controlling bubble behaviors at microscopic levels, his research has enhanced applications in chemical processing, pharmaceuticals, and nanotechnology.

4️⃣ Measurement of Seawater Desalination Concentration & Energy-Saving Membrane Components – One of Hu’s most impactful areas of research is in the field of sustainable water treatment. His work on energy-efficient desalination technologies aims to address global water scarcity challenges, offering solutions that enhance desalination efficiency while reducing energy consumption.

Accolades and Recognition 🏆

Xiao Hu’s contributions to the field have earned him widespread recognition. He serves as a reviewer for prestigious journals, including the International Journal of Mechanical Science, Desalination, Physics of Fluids, Soft Matter, and the Journal of Natural Gas Science and Engineering. His role as a peer reviewer highlights his expertise and influence in shaping high-impact scientific literature.

In addition to his reviewing responsibilities, Hu has been invited to speak at various academic conferences, where he shares insights on flow measurement technologies and sustainable engineering solutions. His research papers have been widely cited, reflecting the significant impact of his work in both academia and industry.

Impact and Influence 🌏

Xiao Hu’s research is not just theoretical; it has tangible applications that benefit industries and society. His contributions to multiphase flow measurement have led to improved industrial processes, while his advancements in desalination technology contribute to global sustainability efforts. By refining energy-saving membrane components, Hu plays a crucial role in addressing water resource challenges, particularly in arid regions where freshwater access is limited.

His work in precise bubble manipulation also has far-reaching implications, influencing developments in biomedical research, chemical engineering, and microfluidic device fabrication. His findings provide valuable insights that guide the next generation of researchers and engineers.

Legacy and Future Contributions 🚀

Looking ahead, Xiao Hu is poised to continue making groundbreaking advancements in fluid dynamics, precision measurement, and sustainable engineering. His future research aims to further enhance the efficiency of desalination technologies, improve diagnostic capabilities in multiphase flow measurement, and explore novel applications of bubble manipulation in emerging technologies.

Through his academic mentorship, Hu is also shaping the next wave of engineers and scientists, inspiring them to push the boundaries of knowledge in fluid mechanics and precision engineering. His commitment to research excellence and technological innovation ensures that his legacy will endure, influencing future developments in engineering and environmental sustainability.

In an era where precision and sustainability are more critical than ever, Xiao Hu stands as a leading figure whose work continues to bridge theoretical discoveries with practical advancements. His dedication to engineering excellence and scientific innovation solidifies his reputation as a distinguished researcher, mentor, and contributor to the global scientific community.

📝Notable Publications

Critical elastic number for the elasto-inertial migration of spheroid in confined microchannel of viscoelastic fluids

Authors: Xiao Hu, Jianzhong Lin, Zhaosheng Yu, Zhaowu Lin, Yan Xia

Journal: International Journal of Multiphase Flow

Year: 2025

Locomotion of active matter over a circular cylinder in a microchannel

Authors: Xiao Hu, Longfei Yu, Jianzhong Lin, Deming Nie, Zuchao Zhu

Journal: Acta Mechanica Sinica

Year: 2025

Comparative analysis of thermo-hydraulic performance on three different finned tube designs

Authors: Jingyu Cui, Xiang Zhu, Mingjun Li, Renyong Lin, Guangfei Ma, Yuzhen Jin, Xiao Hu, Zuchao Zhu

Journal: International Communications in Heat and Mass Transfer

Year: 2025

Dynamics of a long flexible filament conveyed in the near field of a turbulent jet

Authors: Jingyu Cui, Xiang Zhu, Lanlan Xiao, Zuchao Zhu, Renyong Lin, Xiao Hu, Yuzhen Jin

Journal: Journal of Fluids and Structures

Year: 2025

Enhanced mass transfer and energy efficiency by a biomimetic feed spacer in reverse osmosis membrane modules

Authors: Xiao Hu, Junjie Li, Sanchuan Yu, Zuchao Zhu, Peifeng Lin, Xiaojun Li

Journal: Journal of Membrane Science

Year: 2025

Prof Lifeng Chen | Innovative Leadership | Best Researcher Award | 3540

Prof. Lifeng Chen | Innovative Leadership | Best Researcher Award

School of Petroleum Engineering, Yangtze University, China

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Early Academic Pursuits 📚

Lifeng Chen’s academic journey began with a solid foundation in applied chemistry, earning a Bachelor of Science (BS) in 2010 from the Institute of Chemical Technology at Shandong Polytechnic University. During this period, he demonstrated exceptional potential in understanding the complexities of chemical processes and their applications in the industrial world. His passion for research was ignited during his undergraduate years, where he delved into the study of chemical substances, their properties, and their role in various processes. This curiosity eventually led him to pursue graduate studies, where he further honed his academic capabilities.

In 2016, Lifeng Chen completed his PhD in Oil & Gas Field Development Engineering at the College of Petroleum Engineering, China University of Petroleum (East China), located in Qingdao, China. His doctoral research, which focused on the syneresis mechanism of acrylamide gel, was a pivotal step in his academic career. Syneresis refers to the process where a gel or a colloidal system shrinks and releases liquid, a phenomenon that is crucial in petroleum engineering, particularly in enhancing oil recovery processes. This research laid the groundwork for his future contributions to the oil and gas industry and deepened his expertise in chemical engineering processes relevant to petroleum extraction.

Professional Endeavors 💼

After completing his PhD, Lifeng Chen transitioned into a professional career that bridged the gap between academia and industry. His knowledge and research in oil and gas field development engineering were quickly recognized by the scientific community, as well as by industry professionals seeking innovative solutions to challenges in petroleum extraction and production. Lifeng’s professional endeavors have focused primarily on enhancing the efficiency and sustainability of oil and gas extraction technologies. His work has helped address some of the most pressing issues in the industry, such as optimizing gel systems used in enhanced oil recovery (EOR) methods.

Working at the College of Petroleum Engineering at Yangtze University in Wuhan, China, Lifeng has continued to contribute to the advancement of petroleum engineering. His expertise in chemical systems applied to the petroleum sector has led to collaborations with numerous industry stakeholders, from energy companies to research institutions. Lifeng’s deep technical understanding, combined with his ability to apply this knowledge to real-world situations, has made him a valuable asset in both research and professional practice.

Contributions and Research Focus 🔬

Lifeng Chen’s primary research focus remains centered on enhancing oil and gas recovery techniques through innovative chemical processes. His work on acrylamide gel systems has significantly contributed to the field of enhanced oil recovery (EOR). Acrylamide gels, which have been used for decades in petroleum extraction, require a deeper understanding of their behavior under different environmental conditions. Lifeng’s investigation into the syneresis mechanism of these gels has helped develop more efficient and stable systems for oil recovery in complex reservoirs. His contributions to this field have improved the performance and economic viability of EOR techniques.

Furthermore, Lifeng’s expertise extends to the study of other chemical processes in petroleum engineering, including the development of new materials and compounds for more sustainable energy extraction. He has published a number of research papers in prestigious journals, each contributing new insights into the chemistry behind petroleum extraction processes. His work is highly regarded within the academic community, as it blends theoretical research with practical applications.

Accolades and Recognition 🏆

Throughout his career, Lifeng Chen has garnered recognition for his contributions to the field of petroleum engineering. His innovative research on acrylamide gel syneresis has earned him several accolades and awards from both academic and professional organizations. These recognitions reflect the significant impact of his work on the global oil and gas industry.

Lifeng’s dedication to advancing the field of petroleum engineering has also led to invitations to speak at international conferences and symposiums, where he has shared his expertise with fellow researchers and industry professionals. His ability to communicate complex scientific ideas in an accessible and impactful manner has earned him the respect of his peers, establishing him as a leading figure in his field.

Impact and Influence 🌍

Lifeng Chen’s work has made a profound impact on the oil and gas industry, particularly in the realm of enhanced oil recovery. His research into the syneresis mechanism of acrylamide gels has not only enhanced the efficiency of these gels but also paved the way for the development of new materials and systems that can be applied in more challenging petroleum reservoirs. The practical applications of his work have helped to increase the efficiency of oil recovery, reduce operational costs, and improve the sustainability of petroleum extraction practices.

Moreover, his role as a faculty member at Yangtze University has allowed him to pass on his expertise to the next generation of engineers and researchers. Through his teaching and mentorship, Lifeng has inspired countless students to pursue careers in petroleum engineering and chemical research, contributing to the development of the field as a whole.

Legacy and Future Contributions 🔮

As Lifeng Chen continues his career in petroleum engineering, his legacy is firmly rooted in his contributions to the optimization of oil and gas extraction processes. His research on acrylamide gel systems is just one example of how his work has improved the efficiency and sustainability of petroleum engineering practices. Looking to the future, Lifeng’s research is likely to explore even more advanced techniques in chemical engineering, particularly in the context of sustainable energy practices and the growing demand for eco-friendly oil and gas extraction methods.

Lifeng’s commitment to his research and his role in educating future generations ensures that his influence will continue to be felt long after his time in academia. His work will undoubtedly inspire further advancements in petroleum engineering and contribute to the ongoing evolution of the energy industry. Lifeng Chen’s legacy is not only one of scientific achievement but also one of mentorship, innovation, and lasting influence in the field of petroleum engineering.

📝Notable Publications

Thixotropy and gelation characteristics of thermosensitive polymer nanofluids at high temperature

Authors: F. Huang, Feiyang; L. Chen, Lifeng; W. Sheng, Weiwei; X. Shang, Xiaoxia; Z. Zhang, Zhaonian
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2025

 High-temperature and High-salinity Resistant Nano-SiO2 Viscosity-reducing Oil Displacement Agent for Extra-heavy Oil

Authors: X. Lu, Xuanfeng; L. Chen, Lifeng; C. Wu, Chunzhou; Y. Song, Yuan; F. Huang, Feiyang
Journal: Oilfield Chemistry
Year: 2024

Molecular insight into the enhanced oil recovery potential of a seawater-based zwitterionic/anionic surfactant compound for heavy oil reservoirs

Authors: X. Zhong, Xun; J. Song, Jingjin; Y. Yang, Yuxuan; L. Chen, Lifeng; H. Zhao, Hui
Journal: Journal of Molecular Liquids
Year: 2024

Preparation and Performance of High-Temperature-Resistant, Degradable Inorganic Gel for Steam Applications

Authors: L. Chen, Lifeng; Z. Zhang, Zhaonian; H. Zeng, Huiyong; X. Lu, Xuanfeng; W. Sheng, Weiwei
Year: [No source information available]

Preparation and Oil Displacement Performance Evaluation of Amphiphilic Janus Molybdenum Disulfide Nanosheets

Authors: K. Liao, Kaili; Q. Ma, Qianli; M. Wei, Meng; Y. Bai, Yingrui; M. Shao, Minglu
Journal: Energy and Fuels
Year: 2024

Mr. Zhou Chen Junnan | Innovative Leadership | Best Researcher Award

Mr. Zhou Chen Junnan | Innovative Leadership | Best Researcher Award

China Agricultural University, China

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Early Academic Pursuits 📚

Zhou Chenjunnan, a master’s degree student at China Agricultural University, has shown an unwavering commitment to the field of resources and the environment. Specializing in the resource utilization of solid waste, Zhou’s academic journey is marked by curiosity and determination. During undergraduate studies, Zhou developed a deep interest in the management and recycling of organic waste, laying a strong foundation for future research endeavors. This passion led to an advanced academic focus on composting processes and the challenges of sustainable waste management, a crucial topic for addressing global environmental issues.

Professional Endeavors and Research Focus 🔬

Currently, Zhou’s research revolves around resource utilization through aerobic composting of biomass waste, particularly in controlled ecological life support systems (CELSS). These systems are integral to long-term manned space missions, where waste recycling and environmental control are critical. Zhou has spearheaded a key research project under the auspices of the Key Laboratory of Human Factors Engineering, investigating the oxygen demand patterns during biomass waste degradation and developing a low-oxygen composting process. This work exemplifies innovation in integrating environmental sustainability with cutting-edge aerospace applications.

Zhou has authored and co-authored four significant research articles, including two first-authored papers published in prestigious EI and SCI-indexed journals. These papers explore the feasibility of composting organic solid waste in CELSS and the microbial enhancements associated with such processes. Additionally, Zhou’s expertise extends to odor control in livestock and poultry waste, where research on deodorizing strains has determined optimal spraying techniques for minimizing emissions.

Contributions and Impact 🌍

Zhou’s contributions to solid waste management are both theoretical and practical. The extensive study of CELSS organic waste has clarified its composting feasibility and microbial enhancement effects. Zhou’s work on optimizing oxygen supply parameters during composting stages has been instrumental in improving waste recycling methods within CELSS environments. This not only advances sustainability in space exploration but also provides innovative solutions for terrestrial waste management challenges.

Further, Zhou has contributed to odor control research, focusing on reducing the environmental impact of livestock and poultry farming. By experimenting with composite deodorizing bacteria, Zhou has determined effective strategies for mitigating odor emissions under varying conditions, a breakthrough with potential applications in agricultural and industrial sectors.

Accolades and Recognition 🏆

Zhou’s dedication to research has been recognized on national and international platforms. A notable milestone was participation in the Third National Conference on Environmental Control and Life Support Technology for Manned Spaceflight, where Zhou’s research was featured prominently as a wallpaper presentation and included in the conference abstracts. This recognition underscores the relevance and quality of Zhou’s work in advancing environmental sustainability in space and beyond.

Zhou’s innovative contributions have also resulted in two published invention patents:

  1. A method for preparing functional liquid fertilizer by compounding kitchen waste biogas slurry with Bacillus amyloliquefaciens (202311738373.4).
  2. A deodorizing strain, deodorizing agent, and its application (202411423358.5).

These patents reflect a practical application of research findings, further cementing Zhou’s role as a transformative thinker in waste resource utilization.

Impact and Influence ✨

Zhou’s research addresses global challenges in sustainable waste management by bridging gaps between theory and application. The work on CELSS offers critical insights for long-term human survival in isolated environments, such as space missions, while the studies on odor control contribute to improving environmental quality on Earth. Zhou’s focus on microbial enhancements and low-oxygen composting processes represents a significant step toward reducing greenhouse gas emissions and optimizing waste recycling.

Moreover, Zhou’s innovative approach has influenced peers and collaborators in the academic and professional communities, inspiring new lines of inquiry in sustainable technologies. By presenting findings in prominent journals such as Journal of Space: Science & Technology and Journal of Environmental Chemical Engineering, Zhou ensures the dissemination of valuable knowledge to global audiences.

Legacy and Future Contributions 🌟

Looking ahead, Zhou aims to expand research into advanced composting technologies and develop scalable solutions for urban and rural waste management. With a vision to integrate biotechnological advancements into environmental engineering, Zhou aspires to contribute to building a more sustainable world. Plans include collaborating with international research institutions to refine CELSS technologies and exploring applications in circular economies.

Zhou’s legacy is rooted in a commitment to innovation, sustainability, and environmental stewardship. The ability to combine theoretical insights with practical applications highlights Zhou’s potential to become a leading figure in resource and environmental engineering.

📝Notable Publications

The Production of Solid Wastes in CELSS and the Difficulties in Recycling by Composting: A Review

Authors: Chenjunnan Zhou, Zhao Xu, Lingxiao Wang, Rulu Qiao, Yanming Li, Ruixue Chang, Weidang Ai

Journal: Space: Science & Technology

Year: 2024

Dr. Maria Reshetova | Innovative Leadership | Best Researcher Award

Dr. Maria Reshetova | Innovative Leadership | Best Researcher Award

I.M. Sechenov First Moscow State Medical University (Sechenov University), Russia

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Early Academic Pursuits 🎓

Dr. Maria Reshetova began her remarkable academic journey at the prestigious I.M. Sechenov First Moscow State Medical University (Sechenov University). From 2014 to 2019, she pursued her studies in General Medicine, where she demonstrated an exceptional aptitude for learning and a passion for internal medicine. During her residency in internal medicine from 2019 to 2021, she honed her clinical skills and deepened her understanding of complex medical cases. Her drive to specialize further led her to advanced training in gastroenterology from 2021 to 2022, a field that captured her academic and professional interest. Currently, she is engaged in a postgraduate program (2021–2025) at Sechenov University, reflecting her dedication to continuous learning and expertise enhancement.

Professional Endeavors 🩺

Dr. Reshetova’s professional career is marked by a blend of clinical practice, teaching, and research. From 2019 to 2021, she served as a department doctor at the “COVID-19 Hospital” under Sechenov University Clinical Hospital No. 2. Here, she played a pivotal role in the frontlines during the global pandemic, contributing her expertise to patient care and disease management.

Since 2021, she has been an esteemed department assistant at the Department of Internal Medicine, Gastroenterology, and Hepatology at Sechenov University. In this role, Dr. Reshetova combines her clinical practice with teaching responsibilities. She mentors medical students, organizes laboratory work for junior research groups, and supervises work protocols, showcasing her leadership and organizational abilities.

Contributions and Research Focus 🔬

Dr. Reshetova’s contributions extend beyond her clinical responsibilities. She has been instrumental in guiding a small but dynamic research group of medical students, fostering innovation and critical thinking. Her research interests revolve around internal medicine, hepatology, and gastroenterology, areas where she has consistently contributed through publications and collaborative projects. By integrating clinical insights with research, she bridges the gap between theory and practice, making a tangible impact on the field.

In her teaching role, Dr. Reshetova imparts essential skills and knowledge to the next generation of physicians. Her commitment to deontological ethics ensures that students not only acquire technical expertise but also uphold the highest standards of medical professionalism.

Accolades and Recognition 🏅

Dr. Reshetova’s dedication and achievements have earned her recognition within the academic and medical communities. Her proactive role during the COVID-19 pandemic highlighted her resilience and competence under pressure. Additionally, her linguistic skills, with fluency in English (C1) and proficiency in German (B1), enable her to collaborate internationally and access diverse medical literature, enriching her practice and research.

Her leadership qualities, coupled with her effective communication skills, make her a respected figure among her peers and students alike. The ability to guide and inspire young minds in research and medicine has solidified her position as an influential academic.

Impact and Influence 🌍

Dr. Reshetova’s impact extends beyond the confines of her university. As a practicing physician in internal medicine, hepatology, and gastroenterology, she has improved the lives of countless patients. Her role as an educator and mentor ensures that her knowledge and ethical approach resonate across generations of medical professionals.

Her commitment to fostering a culture of research within her department has led to innovative solutions and enhanced understanding of complex medical conditions. By emphasizing the importance of collaboration and critical thinking, Dr. Reshetova continues to shape the future of medical science.

Legacy and Future Contributions 🌟

Dr. Reshetova’s journey is far from over. As she progresses through her postgraduate studies and professional career, her focus remains on pushing the boundaries of medical knowledge and patient care. Her vision for the future includes advancing gastroenterology research, improving diagnostic and therapeutic strategies, and mentoring a new generation of compassionate and skilled physicians.

Through her unwavering dedication, Dr. Reshetova embodies the ideals of a modern physician and academic. Her contributions have left an indelible mark on her institution, her students, and the field of medicine at large. With her remarkable blend of clinical expertise, teaching prowess, and research acumen, Dr. Reshetova is poised to make even greater contributions to healthcare and medical science in the years to come. 🌟

📝Notable Publications

Differences in Fecal Short-Chain Fatty Acids between Alcoholic Fatty Liver-Induced Cirrhosis and Non-alcoholic (Metabolic-Associated) Fatty Liver-Induced Cirrhosis

Authors: X. Cao, O. Zolnikova, R. Maslennikov, M. Reshetova, E. Poluektova, et al.

Journal: Metabolites

Year: 2023

Low Short-Chain-Fatty-Acid-Producing Activity of the Gut Microbiota Is Associated with Hypercholesterolemia and Liver Fibrosis in Patients with Metabolic-Associated (Non-alcoholic) Fatty Liver Disease

Authors: X. Cao, O. Zolnikova, R. Maslennikov, M. Reshetova, E. Poluektova, et al.

Journal: Gastrointestinal Disorders

Year: 2023

Irritable Bowel and Bacterial Overgrowth Syndromes: A Bacterial Link Hypothesis of Functional Disease

Authors: K.V. Ivashkin, V.R. Grechishnikova, M.S. Reshetova, V.T. Ivashkin

Journal: Russian Journal of Gastroenterology, Hepatology, Coloproctology

Year: 2021

Gut Microbiota and Its Metabolites in Pathogenesis of NAFLD

Authors: M.S. Reshetova, L.T.L. Reshetova, O.Yu. Zolnikova, V.T. Ivashkin, K.V. Ivashkin, et al.

Journal: Russian Journal of Gastroenterology, Hepatology, Coloproctology

Year: 2023

Metabolomic Profiles as a New Understanding of Disease Processes

Authors: O.Y. Zolnikova, M.S. Reshetova, M.N. Ivanova, V.T. Ivashkin

Journal: Главный редактор (Chief Editor)

Year: 2023

 

Dr. Shouji Zhu | Innovative Leadership | Best Researcher Award | 2951

Dr. Shouji Zhu | Innovative Leadership | Best Researcher Award

Hanshan Normal University, China

🔗 Professional Profiles

Summary

👨‍🏫 Lecturer: Shouji Zhu
🏫 Institution: Hanshan Normal University
📧 Contact: zsj82633829@126.com; +86 14739135374
🔬 Research: Purification, structural modification, and biological activity of natural products

Education

  • 🎓 Doctorate: Beijing Forestry University, Beijing, China

Professional Experience

  • 👨‍🏫 Current Position: Lecturer, Hanshan Normal University
  • 🔬 Projects: National natural fund, provincial natural fund, and other research projects

Research Interests

  • 🌱 Purification of Natural Products
  • 🔬 Structural Modification of Natural Products
  • 🧬 Biological Activity of Natural Products

Contributions

Dr. Zhu’s recent research involves utilizing bagasse, an industrial waste, as a catalyst support material. This innovative approach not only enhances the economic value of bagasse but also promotes sustainable development and green chemistry by simplifying the catalyst recovery process and reducing resource waste. ♻️🌿

Proofs and Declaration

Academic/Research Links: DOI: 10.1016/j.ijbiomac.2024.133549
ID/Certificate Links:

Award Category Preference: Best Researcher Award

Self-Declaration:

I authenticate that to the best of my knowledge, the information given in this form is correct and complete. If at any time I am found to have concealed any material information, my application shall be liable to be summarily terminated without notice. I have read the terms and conditions and other policies of the Awards and agree to them.

Nominator Signature/Name:
Date: July 09, 2024