Shineng Sun | alloy | Best Researcher Award | 13331

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Assoc. Prof. Dr. Shineng Sun | alloy | Best Researcher Award

Assoc. Prof. Dr. Shineng Sun, Shenyang Univesity, China

Assoc. Prof. Dr. Shineng Sun is a faculty member at Shenyang University, China, specializing in materials science and engineering. He holds a Ph.D. from Northeastern University and has been actively engaged in research on Zn-based alloys, focusing on their microstructure, mechanical properties, and corrosion resistance. His work has contributed to advancements in extrusion processing and alloy development, with numerous publications in high-impact journals such as Materials Science and Engineering A and Materials Letters. Dr. Sun’s research plays a crucial role in enhancing the performance of Zn-based materials for industrial and structural applications.

Profile

Scopus

🎓 Early Academic Pursuits

Assoc. Prof. Dr. Shineng Sun was born on April 9, 1987, in Dalian City, Liaoning Province, China. His academic journey began at Liaoning Technical University, where he obtained his Bachelor’s degree, laying a strong foundation in materials science. Driven by a passion for advanced research, he pursued his Master’s and Ph.D. at Northeastern University, one of China’s premier institutions. His doctoral studies focused on the structural and mechanical properties of metallic materials, particularly Zn-based alloys, an area that would later define his research career.

🌟 Professional Endeavors

Since 2018, Dr. Sun has been a dedicated faculty member at Shenyang University, serving as a teacher and researcher in the field of materials science. His role involves both instructing students and conducting innovative research on metal alloys, specifically focusing on their microstructure evolution and mechanical properties. His work is instrumental in advancing the understanding of metal extrusion processes and improving alloy performance for industrial applications.

👩‍🔬 Contributions and Research Focus

Dr. Sun’s research is primarily centered on Zn-based alloys, a critical material used in various industrial applications, including structural and biomedical engineering. His work explores:

  • Microstructure and Mechanical Properties: Investigating how extrusion and alloying elements influence material behavior.
  • Corrosion Resistance and Surface Treatments: Enhancing the longevity and durability of Zn alloys through innovative surface treatments.
  • Superplasticity and Ductility Improvements: Developing techniques to enhance the mechanical properties of Zn-Al and Zn-Mn alloys.

His studies, published in renowned journals such as Materials Science and Engineering A and Materials Letters, provide valuable insights into alloy development and metallurgical processing.

🏆 Accolades and Recognition

Dr. Sun’s contributions to materials science have earned him recognition within the academic and industrial communities. His research output includes multiple peer-reviewed journal articles, showcasing his expertise in alloy processing and development. The high citation impact of his work reflects its significance in advancing knowledge on Zn-based alloys. Additionally, his collaborations with fellow researchers have further cemented his reputation as a leading expert in his field.

🌍 Impact and Influence

Dr. Sun’s research not only contributes to the academic sphere but also holds practical implications for industries reliant on high-performance alloys. His work on Zn-based alloys is instrumental in improving materials for applications such as:

  • Aerospace and Automotive Engineering: Enhancing lightweight metal solutions.
  • Biomedical Implants: Developing corrosion-resistant materials for medical applications.
  • Manufacturing and Industrial Processing: Advancing extrusion techniques to optimize metal performance.

His mentorship of students at Shenyang University also plays a crucial role in shaping the next generation of materials scientists and engineers, fostering innovation in the field.

📚 Legacy and Future Contributions

Looking ahead, Dr. Sun continues to push the boundaries of metallurgical research, with ongoing projects focused on refining extrusion processes and discovering new alloy compositions. His future contributions are expected to further impact the development of sustainable and high-performance materials, bridging the gap between theoretical research and industrial application. As a dedicated educator and researcher, his legacy lies in both his scientific advancements and the inspiration he provides to aspiring engineers and scientists.

Dr. Shineng Sun remains a vital contributor to the field of materials science, with a research trajectory that promises continued innovation and impact in the years to come.

Publication Top Notes

Effect of Mn on microstructures and properties of backward extruded Zn-0.5 Mg alloys

Author: C., Xiao, Chi, S., Sun, Shineng, D., Meng, Dehui, B., Liu, Baoyi, H., Zhang, Haochun

Journal: of Materials Research and Technology, 

Year: 2025

Microstructure and corrosion-resisting properties of CeO2-SiO2-Al2O3 composite coatings prepared by plasma electrolytic oxidation on aluminum matrix composites

Author: G., Ma, Guofeng, Z., Li, Zhanpeng, X., Zhao, Xiaorong, S., Wang, Shiyang, Y., Yang, Yanhong

Journal: Alloys and Compounds, 

Year: 2024

Li Zhou | Biotechnology | Best Researcher Award | 13329

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Assoc. Prof. Dr. Li Zhou | Biotechnology | Best Researcher Award

Assoc. Prof. Dr. Li Zhou, Jiangnan University, China

Assoc. Prof. Dr. Li Zhou is a researcher at Jiangnan University, specializing in microbial metabolic engineering and synthetic biology. Holding a Ph.D. in Fermentation Engineering, Dr. Zhou has made significant contributions to the biosynthesis of value-added compounds such as L-alanine, D-lactate, and terpenoids with industrial applications. With 66 journal publications and collaborations with Zhejiang University, University of Stellenbosch, and Durban University of Technology, Dr. Zhou has advanced dynamic metabolic engineering frameworks for sustainable biomanufacturing. His research is widely recognized, with 1,649 citations, three patents, and impactful contributions to metabolic engineering and biotechnology.

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Early Academic Pursuits 🎓

Dr. Li Zhou’s academic journey began with a strong foundation in biotechnology, leading him to pursue a Ph.D. in Fermentation Engineering from Jiangnan University. His doctoral research focused on optimizing microbial pathways to enhance fermentation efficiency, laying the groundwork for his future contributions to microbial metabolic engineering. Through rigorous training and an in-depth understanding of synthetic biology, Dr. Zhou developed expertise in engineering microbial systems for industrial applications, particularly in biosynthesis and bio-based production.

Professional Endeavors 🌍

Since joining the School of Biotechnology at Jiangnan University as an Associate Professor in 2012, Dr. Zhou has dedicated himself to advancing microbial metabolic engineering. Over the past decade, he has worked on multiple research projects, applying innovative synthetic biology approaches to microbial cell factories. His collaborations with Zhejiang University, the University of Stellenbosch, and Durban University of Technology have led to groundbreaking studies published in high-impact journals such as Bioresource Technology and Metabolic Engineering.

Dr. Zhou has also contributed to industrial advancements, bridging the gap between academia and real-world applications. His consultancy work has facilitated the implementation of bio-based solutions in commercial settings, further reinforcing the relevance of his research to sustainable manufacturing.

Contributions and Research Focus 👩‍�

Dr. Zhou specializes in microbial metabolic engineering, with a particular emphasis on optimizing Escherichia coli for efficient biosynthesis of high-value compounds. His research has led to the industrial-scale production of:

  • L-Alanine: Used as a food additive for enhanced nutritional value.
  • D-Lactate: A crucial component in the production of biodegradable plastics.
  • Terpenoids: Essential for pharmaceutical intermediates, supporting drug development and medical research.

One of Dr. Zhou’s most notable achievements is the establishment of dynamic metabolic engineering frameworks that enable precise regulation of microbial cell factories. His methodologies have significantly improved biomanufacturing efficiency, reducing resource consumption while maximizing yield. His work aligns with global sustainability efforts, promoting environmentally friendly alternatives to traditional chemical synthesis.

Accolades and Recognition 🏆

Dr. Zhou’s research contributions have earned him recognition within the scientific community. With an impressive citation index of 1,649, his work has been widely referenced, influencing subsequent studies in microbial engineering. He has published 66 peer-reviewed journal articles in prestigious scientific databases such as SCI and Scopus, contributing to the global body of knowledge in biomanufacturing.

Additionally, he holds three patents, underscoring his commitment to translating academic research into tangible technological advancements. His innovative approaches have been acknowledged by leading institutions, further solidifying his reputation as a key figure in the field of metabolic engineering.

Publication Top Notes

Dynamically metabolic engineering overflow metabolism for efficient production of l-alanine in Escherichia coli

ContributorsJinyang Li; Jiawen Shen; Wuyue Ye; Xinyan Tang; Zhiyu Wang; Muyun Geng; Yunye Liu; Xianzhong Chen; Li Zhou

Journal: Bioresource Technology
Year: 2025
Corrigendum to “Metabolic engineering of glycolysis in Escherichia coli for efficient production of patchoulol and τ-cadinol”
ContributorsZhou, L.; Wang, Q.; Shen, J.; Li, Y.; Zhang, H.; Zhang, X.; Yang, S.; Jiang, Z.; Wang, M.; Li, J. et al.

Journal: Bioresource Technology
Contributors: Zhou, L.; Wang, Q.; Shen, J.; Li, Y.; Zhang, H.; Zhang, X.; Yang, S.; Jiang, Z.; Wang, M.; Li, J. et al.
Journal: Bioresource Technology
Year: 2024

Long Huang | Materials Process Engineering | Best Academic Researcher Award | 13321

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Dr. Long Huang | Materials Process Engineering | Best Academic Researcher Award

Dr. Long Huang, Nanchang Hangkong University, China

Dr. Huang Long is a Lecturer and Master Supervisor at the School of Aeronautical Manufacturing Engineering, Nanchang Hangkong University, China. He earned his Ph.D. from Northwestern Polytechnical University under Prof. Sun Zhichao. His research focuses on precise plastic forming of difficult-to-deform materials (e.g., titanium alloys), microstructure-property regulation, and residual stress control in aero-engine components. He previously worked at China Aero-Engine South Industry Co., Ltd., contributing to process innovations and high-performance component development. Dr. Huang has published over 30 academic papers and holds five invention patents.

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Early Academic Pursuits ✨

Dr. Huang Long embarked on his academic journey with a strong foundation in materials science and engineering. He earned his Bachelor of Science degree in Material Forming and Control Engineering from East China Jiaotong University in 2010, where he cultivated his interest in advanced manufacturing and materials processing. His passion for materials engineering led him to pursue a Master’s degree at Chongqing University (2011-2014) under the mentorship of Prof. Wang Menghan. During this period, he honed his expertise in materials processing, focusing on innovative techniques for improving mechanical properties and manufacturing efficiency.

Taking his academic endeavors to the next level, Dr. Huang pursued a Ph.D. in Materials Processing Engineering at Northwestern Polytechnical University from 2018 to 2022. Under the guidance of Prof. Sun Zhichao, a National Leading Talent, he specialized in precise plastic forming, microstructure regulation, and heat treatment processes for high-performance aerospace materials. His doctoral research contributed significantly to the field, particularly in the forming and performance enhancement of titanium alloys, a critical material for aerospace applications.

Professional Endeavors 💼

Following the completion of his Master’s degree, Dr. Huang joined China Aero-Engine South Industry Co., Ltd. (AECC South) in 2014 as a Technical Engineer in the Engineering Technology Department. During his tenure at AECC South, he played a crucial role in process innovation, working extensively on novel plastic forming techniques for titanium alloys and superalloys used in aero-engine components. His work focused on improving microstructure-property relationships and optimizing heat treatment methods to enhance material performance and longevity.

After nearly four years of impactful industrial research and development, Dr. Huang transitioned into academia in July 2022. He joined Nanchang Hangkong University as a Lecturer at the School of Aeronautical Manufacturing Engineering, where he continues to engage in cutting-edge research while mentoring the next generation of engineers. As a Master Supervisor, he guides graduate students in advanced manufacturing techniques, ensuring they develop the skills necessary for the evolving aerospace industry.

Contributions and Research Focus 🌟

Dr. Huang’s research interests lie at the intersection of materials science, mechanical engineering, and aerospace technology. His work has significantly advanced the understanding of:

  1. Precise Plastic Forming: Developing innovative forming techniques for complex components made from difficult-to-deform materials like titanium alloys and superalloys.
  2. Microstructure Regulation and Performance Optimization: Investigating the influence of heat treatment and forging processes on material properties to enhance mechanical performance.
  3. Superplasticity in Lightweight Aerospace Alloys: Exploring how superplastic forming techniques can be leveraged for efficient manufacturing.
  4. Residual Stress and Deformation Control: Modeling and simulating the behavior of aero-engine components during heat treatment to minimize defects and residual stresses.

Dr. Huang has led multiple research projects, including those funded by the Jiangxi Provincial Natural Science Foundation, the Science and Technology on Light Alloy Processing Laboratory, and Nanchang Hangkong University. His work continues to push the boundaries of materials engineering, making significant strides in aerospace manufacturing.

Accolades and Recognition 🏆

Dr. Huang’s contributions to materials processing and aerospace engineering have earned him significant recognition in the scientific community. He has published over 30 peer-reviewed academic papers in reputable journals, showcasing his expertise in materials engineering. Additionally, he holds five authorized invention patents related to advanced forming techniques and heat treatment processes. His patents have practical applications in the aerospace industry, contributing to more efficient and cost-effective manufacturing processes.

Beyond publications and patents, Dr. Huang’s research has been acknowledged through prestigious funding grants and industry collaborations, cementing his reputation as a leading researcher in his field.

Publication Top Notes

Enhancing the Robustness of Rib-Groove Filling and Strain Homogeneity in the Isothermal Forging of Titanium Alloy Multi-Rib Components

Author: T., Ding, Tong, K., Wei, Ke, Y., Hou, Yong, L., Huang, Long, M., Lee, Myoung-gyu

Journal: Chinese Journal of Mechanical Engineering

Year: 2024

Research on constitutive model of 9310 steel based on physical parameters and BP neural network

Author: Y., Wang, Yuhang, S., Luo, Shuanmou, X., Dong, Xiangjuan, Z., Tu, Zeli, J., Li, Jiajun

Journal: Suxing Gongcheng Xuebao/Journal of Plasticity Engineering, 

Year: 2024

Haiqing Pei | Advanced Materials | Best Researcher Award | 13320

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Mr. Haiqing Pei | Advanced Materials | Best Researcher Award 

Mr. Haiqing Pei, Northwestern Polytechnical University, China

Assoc. Prof. Haiqing Pei of Northwestern Polytechnical University specializes in the strength and life assessment of aero-engine hot-end components under service conditions. Over the past five years, he has published 38 academic papers, including 30 as the first or corresponding author, in prestigious journals such as Corrosion Science, IJMS, IJF, and Scripta Materialia. His research has garnered 1,200 citations in the Scopus database and received recognition from leading academic teams. He has also applied for 16 national patents, with 7 granted, and registered 5 software copyrights, contributing significantly to the field of aero-engine reliability and durability.

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Scopus

🎓 Early Academic Pursuits

Haiqing Pei’s journey into the world of engineering and materials science began with a strong academic foundation. With a keen interest in mechanical structures and material properties, he pursued rigorous studies that set the stage for his future contributions to aero-engine component research. His academic excellence and deep-rooted understanding of material strength and fatigue analysis positioned him for a career dedicated to enhancing the performance and durability of aerospace systems.

💼 Professional Endeavors

Currently serving as an Associate Professor at Northwestern Polytechnical University, China, Haiqing Pei has established himself as a leading expert in the strength and life assessment of aero-engine hot-end components under service conditions. His research focuses on analyzing material degradation, fatigue, and corrosion behavior, aiming to improve the longevity and reliability of critical aerospace components. Through his professional engagements, he has collaborated with academic institutions, industry leaders, and government research agencies, further solidifying his reputation in the field.

🔬 Contributions and Research Focus

Over the past five years, Haiqing Pei has made significant contributions to the field of aerospace engineering, particularly in material behavior under extreme service conditions. His research covers:

  • Strength and Life Assessment: Investigating how hot-end aero-engine components respond to prolonged operational stress.
  • Corrosion and Fatigue Studies: Understanding the microstructural changes that affect material degradation.
  • Advanced Materials Engineering: Developing innovative solutions to enhance material resilience in high-temperature environments.

He has authored 38 research papers in esteemed international journals, including Corrosion Science, International Journal of Mechanical Sciences (IJMS), International Journal of Fatigue (IJF), Scripta Materialia (SCT), and Materials Science and Engineering A (MSEA). Impressively, he has been the first or corresponding author on 30 of these papers, with 17 published in Q1 Top journals and 10 in Q2 journals.

🏆 Accolades and Recognition

Haiqing Pei’s scholarly contributions have earned him widespread recognition in the academic and research community:

  • 1,200 citations in the Scopus database, demonstrating the global impact of his work.
  • Positive references from multiple academician and fellow research teams, both in China and internationally.
  • 16 national invention patent applications, of which 7 patents have been authorized.
  • 5 software copyrights registered, showcasing his expertise in developing computational tools for aerospace engineering.

His research excellence has positioned him as a thought leader in aero-engine component durability, influencing studies conducted by peers and industry experts worldwide.

Publication Top Notes

Fatigue fracture mechanism and life prediction of nickel-based single crystal superalloy with film cooling holes considering initial manufacturing damage

Author: F., Li, Fei, Z., Wen, Zhixun, L., Luo, Lei, H., Pei, Haiqing, Z., Yue, Zhufeng

Journal: International Journal of Fatigue, 

Year: 2025

First Principles Study on Effect of Al-O Element Aggregation on Oxidation of a Ni-based Single Crystal Superalloy

Author: H., Pei, Haiqing, J., Xiao, Jingbo, W., Li, Wei, Z., Wen, Zhixun, Z., Yue, Zhufeng


Journal: Chinese Society of Corrosion and Protection, 

Year: 2025

Investigation on high temperature fatigue-oxidation behavior of Ni-based single crystal with film cooling holes considering arrangement effect

Author: Z., Li, Zhenwei, C., Wang, Cheng, Z., Wen, Zhixun, P., He, Pengfei, Z., Yue, Zhufeng


Journal: Engineering Fracture Mechanics

Year: 2024

Wenzheng Zhai | Additive Manufacturing | Best Researcher Award | 13316

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Assoc. Prof. Dr. Wenzheng Zhai | Additive Manufacturing | Best Researcher Award 

Assoc. Prof. Dr. Wenzheng Zhai, Huazhong University of Science and Technology, China

Assoc. Prof. Dr. Wenzheng Zhai is a researcher at the School of Mechanical Science and Engineering, Huazhong University of Science and Technology (HUST), China. His expertise lies in tribology, high-performance alloy preparation, and advanced material characterization techniques. With a Ph.D. in Mechanical Engineering from Wuhan University of Technology, he has contributed significantly to tribological research, particularly in nanomaterials for superlubricity and self-lubricating composites. He has published extensively in high-impact journals, with multiple ESI Highly Cited Papers. His research employs advanced techniques such as FESEM, TEM, XRD, and nanoindentation, contributing to material science innovations.

Profile

Scopus

🌱 Early Academic Pursuits

Assoc. Prof. Dr. Wenzheng Zhai’s journey into academia began with a strong foundation in materials science. He earned his Bachelor’s degree in Materials Science from Jinan University in 2011, setting the stage for his future specialization. Driven by a passion for advanced materials and mechanical engineering, he pursued a Master’s degree in Materials Science from Wuhan University of Technology in 2013. His academic excellence and keen research interest led him to further studies, culminating in a Ph.D. in Mechanical Engineering from the same institution in 2016. His doctoral research laid the groundwork for his specialization in tribology and high-performance materials.

🏆 Professional Endeavors

Dr. Zhai’s professional career took off with his role as a Research Associate at Nanyang Technological University, Singapore, in 2016-2017. This international exposure allowed him to work alongside leading researchers in materials science and tribology, enhancing his expertise in advanced material characterization and wear-resistant technologies. Since 2017, he has been serving as an Associate Professor at the School of Mechanical Science and Engineering, Huazhong University of Science and Technology (HUST), China. His role at HUST has enabled him to mentor young researchers, supervise doctoral candidates, and lead innovative research projects.

🔬 Contributions and Research Focus

Dr. Zhai has made remarkable contributions to the field of tribology, particularly in the development of high-performance alloys and self-lubricating composites. His research has focused on:

  • Superlubricity and Nanomaterials: He has extensively studied nanomaterials like graphene, nanodiamonds, and carbon-based additives for reducing friction and wear in mechanical systems.
  • Wear-resistant Composites: His work on gas-atomized copper-based particles and nickel-aluminum bronze alloys has led to breakthroughs in improving mechanical properties and durability.
  • Advanced Manufacturing Techniques: Utilizing powder metallurgy techniques like 3D printing and Spark Plasma Sintering (SPS), he has pioneered the creation of high-strength, wear-resistant materials.
  • Tribological Coatings and Lubrication Technologies: His studies on self-healing tribo-layers and composite coatings have significant industrial applications in aerospace, automotive, and manufacturing sectors.

📚 Specific Projects and Publications

Dr. Zhai has authored numerous high-impact publications, many of which are highly cited in the scientific community. Some of his key publications include:

  1. Zhai W, Zhou K. Nanomaterials for superlubricity, Advanced Functional Materials, 2019.
  2. Zhai W., Narasimalu S., Zhou K., Carbon nanomaterials in tribology, Carbon, 2017. (ESI Highly Cited Paper)
  3. Zhai W., Lu W., Liu X., Zhou L., Nanodiamond as an effective additive in oil to dramatically reduce friction and wear, Tribology International, 2019. (ESI Highly Cited Paper)
  4. Zhai W., Lu W., Chen Y., Liu X., Zhou L., Gas-atomized copper-based particles for high wear-resistance performance, Composite Part B, 2019. (ESI Highly Cited Paper)

His research findings have significantly influenced advancements in tribology, earning recognition in the form of multiple ESI Highly Cited Papers.

🏅 Accolades and Recognition

Dr. Zhai’s research excellence has been acknowledged with prestigious accolades. His papers have consistently been among the most cited in the field, marking him as a leading researcher in tribology and materials science. He has been invited to present at international conferences and serves as a reviewer for top-tier scientific journals, contributing to the dissemination and advancement of tribological research worldwide.

 

Touhidul Islam Tanim | Pharmacy | Young Scientist Award | 13317

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Mr. Touhidul Islam Tanim | Pharmacy | Young Scientist Award

Mr. Touhidul Islam Tanim, Gopalgonj Science and Technology University, Bangladesh

Mr. Touhidul Islam Tanim is a dedicated researcher from Gopalganj Science and Technology University, Bangladesh, with expertise in pharmaceutical sciences. His research focuses on drug discovery, molecular docking, and pharmacological studies. He has co-authored multiple peer-reviewed publications in reputable journals, including Journal of Functional Foods and Khulna University Studies. As a Research Assistant at BioLuster Research Center Ltd., he conducts in-vivo experiments and contributes to scholarly writing. His work has earned him several accolades, including recognition in bioinformatics and computational biology. With a strong academic background and industry training, he is committed to advancing medical science for human health improvement.

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Early Academic Pursuits 🎓

Mr. Touhidul Islam Tanim began his academic journey with a strong foundation in science, showcasing excellence from an early stage. He completed his Secondary School Certificate (SSC) in 2015 from Barishal Zilla School with an outstanding GPA of 5.00 out of 5.00. His academic brilliance continued through his Higher Secondary Certificate (HSC) in 2017 at Govt. Syed Hatem Ali College, achieving the same remarkable GPA.

With a passion for pharmaceutical sciences and medical research, he pursued a Bachelor of Pharmacy (B. Pharm) at Gopalganj Science and Technology University (2018-2022), securing a CGPA of 3.49 out of 4.00. Currently, he is pursuing his Master of Pharmacy (M. Pharm, Thesis) at the same institution (2023-2025), with an impressive CGPA of 3.76 out of 4.00. His academic excellence is further highlighted by his IELTS score of 7, indicating strong proficiency in English, which aids in his global research collaborations.

Professional Endeavors 🔬

With a deep passion for drug discovery, molecular docking, and pharmacological studies, Mr. Tanim embarked on his professional journey as a Research Assistant (RA) at BioLuster Research Center Ltd. in 2024. His responsibilities include:

  • Conducting in-vivo and in-silico pharmacological experiments
  • Performing extensive literature reviews
  • Writing research and review articles for international publications
  • Exploring bioinformatics applications in drug research

Additionally, he underwent industrial training at General Pharmaceuticals Ltd., where he gained hands-on experience in quality control, assurance, microbiology, product development, and regulatory compliance.

Contributions and Research Focus 🧪

Mr. Tanim’s research is dedicated to human disease treatment, with a focus on natural compounds, pharmacodynamics, and drug interactions. His key research contributions include:

Published Research Works 📖

  1. Antiemetic activity of Sesamol – Explores the serotonergic and dopaminergic pathways in Journal of Functional Foods
  2. Clot lysis and membrane protection potentials of Cheilanthes tenuifolia methanolic leaf extract – Published in Khulna University Studies
  3. 6-Shogaol: A Short Review – Published in Clinical Research Notes
  4. Sesamol’s anti-inflammatory and synergistic properties with Celecoxib and Ketoprofen (DOI: https://doi.org/10.1016/j.ctmp.2025.200203)

Manuscripts Under Review 📑

  • Sesamol’s Antidiarrheal Potential in Castor Oil-Induced Diarrheal Models
  • Anxiolytic Effects of Citral in Swiss Albino Mice through the GABAergic interaction pathway
  • Quercetin’s Role in Modulating d-pinitol-mediated Anxiolytic-like Effects

His extensive research work combines in-vivo, in-silico, and molecular docking methodologies, contributing significantly to pharmacology, computational biology, and drug discovery.

Accolades and Recognition 🏆

Mr. Tanim’s dedication to research has earned him several prestigious awards and achievements, including:

  • Finalist Certificate from the 1st Biology and Bioinformatics Olympiad organized by BioPC
  • Certificate from Online Workshop on Article Writing & Computational Studies by BioLuster Research Center Ltd.
  • Membership Certificate from GSTU Research and Higher Studies Society

His publications, ongoing research, and professional contributions are widely recognized in the pharmaceutical and medical research communities.

Impact and Influence 🌍

As an emerging researcher, Mr. Tanim’s work is reshaping pharmaceutical sciences, particularly in:

  • Vector Control – His studies on sesamol’s anti-inflammatory and antiemetic properties have potential applications in treating gastrointestinal disorders.
  • Collaborative Efforts – His partnerships with international researchers, industry experts, and academic institutions enhance knowledge exchange.
  • Applied Research – His focus on natural bioactive compounds contributes to drug development and disease management.
  • Geographic Impact – His research spans Bangladesh, the Middle East, and Western academia, making his work globally relevant.

His efforts in bioinformatics, molecular docking, and pharmacology position him as a promising innovator in medical science.

Legacy and Future Contributions 🚀

Looking ahead, Mr. Tanim aims to:

  • Develop novel drug formulations based on plant-based bioactive compounds
  • Enhance collaborations with global research institutions and pharmaceutical industries
  • Bridge the gap between computational biology and pharmacology for effective drug screening
  • Inspire young researchers through mentorship, training, and scholarly contributions

His dedication, expertise, and research impact position him as a future leader in pharmaceutical innovation.

 

Wenwen Wang | Polymer materials | Best Researcher Award | 13314

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Prof. Wenwen Wang | Polymer materials | Best Researcher Award 

Prof. Wenwen Wang, Wuhan Textile University, China

Prof. Wenwen Wang is a distinguished researcher in polymer materials and fiber engineering. She earned her Ph.D. in Polymer Chemistry and Physics in 2014 and was jointly trained at the University of Tennessee, Knoxville. Her research focuses on fiber-forming polymer synthesis, functional fibers, and responsive materials. With over 70 published papers, 89 patents, and multiple industry collaborations, she has significantly contributed to textile innovation. Prof. Wang has led numerous national and provincial projects and received prestigious awards for her scientific achievements. Her work with companies like Sinopec and Skechers has advanced high-performance and smart fiber technologies.

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🎓 Early Academic Pursuits

Prof. Wenwen Wang embarked on her academic journey with a strong foundation in polymer materials and engineering. She earned her bachelor’s degree in Polymer Materials and Engineering in 2009, demonstrating an early inclination toward the field of materials science. Her passion for research and innovation led her to pursue a Ph.D. in Polymer Chemistry and Physics, which she completed in 2014. During her doctoral studies, she was selected for a joint training program at the University of Tennessee, Knoxville, in 2013, where she gained international exposure and honed her expertise in fiber engineering and polymer synthesis.

🌟 Professional Endeavors

Prof. Wang’s career is marked by relentless pursuit of innovation and practical applications in fiber-forming polymers. She currently serves as a professor at Wuhan Textile University, where she leads groundbreaking research in the synthesis and application of functional fibers. Her professional trajectory includes extensive collaborations with academia and industry, facilitating advancements in textile technology and polymer science. Beyond research, she is actively involved in academic mentorship, guiding young researchers and students in exploring novel fiber materials.

👩‍🎓 Contributions and Research Focus

Prof. Wang’s research primarily focuses on the molecular structure design and synthesis of fiber-forming polymers. Her expertise extends to the development of light, heat, and force-stimuli responsive color-changing fibers, which have broad applications in smart textiles and wearable technology. Additionally, she has pioneered work in heat and humidity comfort regulation fibers and high-performance fibers, improving textile functionality and sustainability. Her contributions to fiber engineering include the exploration of eco-friendly and high-strength polymers, significantly impacting industries such as automotive, aerospace, and healthcare textiles.

🏆 Accolades and Recognition

Prof. Wang’s work has garnered significant recognition in the scientific community. She has authored over 70 research papers published in prestigious journals like Advanced Science, Nano-Micro Letters, Journal of Colloid and Interface Science, and Macromolecules. Her patent portfolio boasts 89 innovations, reinforcing her role as a leading inventor in polymer science. Her outstanding research contributions have earned her:

  • Two First Prizes from the China Textile Industry Federation Science and Technology Award
  • One Second Prize in the Shandong Provincial Science and Technology Progress Award
  • Leadership roles in major research initiatives, including projects funded by the National Natural Science Foundation.

🌐 Impact and Influence

Prof. Wang’s impact extends beyond academia. Her research findings have practical industrial applications, as evidenced by her collaborations with global corporations such as Sinopec and Skechers. These partnerships have resulted in the development of new fiber products with enhanced properties, bridging the gap between academic research and commercial application. As a member of the American Chemical Society, China Textile Engineering Society, and Chinese Chemical Society, she contributes to shaping global advancements in polymer materials. Additionally, she holds an editorial board position in China Plastics, further solidifying her influence in the field.

💡 Legacy and Future Contributions

Prof. Wang’s legacy lies in her pioneering research in functional fibers and smart textiles. Her continued work in polymer innovation is expected to drive sustainable textile solutions, addressing global concerns regarding environmental impact and material efficiency. She remains committed to mentoring the next generation of scientists, fostering innovation in fiber technology. Her future projects aim to integrate biodegradable polymers and intelligent textile systems, further revolutionizing the industry.

With an unwavering dedication to scientific excellence and industrial transformation, Prof. Wenwen Wang stands as a beacon of inspiration in the field of polymer chemistry and fiber engineering. Her journey exemplifies the power of passion, persistence, and pioneering spirit, leaving an indelible mark on academia, industry, and society at large.

Publication Top Notes

Facile design of nanofiber composite film with multi-level crosslinked enhanced structure using carbon nanotubes/silver-coated nylon 6 as microwave absorber

Author: C Yang, C Chen, D Tao, K Yan, H You, Q Liu, W Wang, D Wang
Journal: Chemical Engineering
Year: 2025

Electric-field assisted cascade reactions to create alginate/carboxymethyl chitosan composite hydrogels with gradient architecture and reconfigurable mechanical properties

Author: K Yan, D Chen, X Guo, Y Wan, C Yang, W Wang, X Li, Z Lu, D Wang
Journal: Carbohydrate Polymers
Year: 2024

Xiang Ke | Energy storage materials | Best Researcher Award | 13313

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Assoc. Prof. Dr. Xiang Ke | Energy storage materials | Best Researcher Award 

Assoc. Prof. Dr. Xiang Ke, Guizhou University, China

Assoc. Prof. Dr. Xiang Ke is an esteemed researcher at Guizhou University, China, specializing in biomedical polymers and artificial organs. Holding a Ph.D. from Sichuan University under the supervision of Prof. Jianshu Li, his work focuses on bioadhesives, wound healing, and biomineralization-inspired materials. Dr. Ke has published extensively in high-impact journals such as Chem. Eng. J., ACS Appl. Mater. Interfaces, and Biomaterials Science, contributing significantly to advancements in medical biomaterials. His research integrates natural small molecules, supramolecular chemistry, and nanotechnology to develop innovative solutions for healthcare applications.

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🎓 Early Academic Pursuits

Assoc. Prof. Dr. Xiang Ke embarked on his academic journey with a keen interest in chemistry and materials science. He pursued his Ph.D. at Sichuan University, specializing in biomedical polymers and artificial organs under the mentorship of Prof. Jianshu Li. His doctoral research laid a strong foundation in biomaterials, bioadhesives, and tissue engineering, focusing on the development of natural polymer-based medical adhesives and coatings. Through rigorous study and experimentation, he mastered techniques in polymer chemistry, biocompatible materials, and nanotechnology, setting the stage for his impactful research career.

👨‍🏫 Professional Endeavors

Dr. Xiang Ke is currently serving as an Associate Professor at Guizhou University, where he continues to contribute significantly to the fields of biomedical materials and chemical engineering. His work spans multiple disciplines, integrating chemistry, biomaterials, and medical applications. His academic role involves mentoring young researchers, supervising graduate students, and leading groundbreaking research projects that aim to revolutionize medical adhesives, wound healing solutions, and tissue regeneration.

🔬 Contributions and Research Focus

Dr. Ke’s research primarily focuses on biomaterial innovation and biomedical applications. Some of his key areas of expertise include:

  • Bioadhesives and Hydrogels: He has developed biodegradable, self-healing, and antibacterial bioadhesives that are highly effective in wound healing and tissue repair.
  • Nanotechnology in Medicine: His work incorporates nanomaterials for drug delivery, infection control, and regenerative medicine.
  • Biomineralization-Inspired Materials: He has advanced bone and hard tissue repair techniques through bioinspired materials.
  • Supramolecular Chemistry: His research explores small molecule-based supramolecular systems for enhanced medical and engineering applications.

Dr. Ke has an extensive publication record, with over a dozen papers in leading journals such as ACS Applied Materials & Interfaces, Chemical Engineering Journal, Biomaterials Science, and Advanced Healthcare Materials. His contributions have provided valuable insights into the development of next-generation biomaterials, with applications in orthopedic surgery, dental restoration, and regenerative therapies.

🏅 Accolades and Recognition

Dr. Ke’s research excellence has been acknowledged by numerous high-impact publications and citations. Some of his notable recognitions include:

  • High-impact journal publications in the fields of biomaterials, tissue engineering, and nanomedicine.
  • Collaboration with renowned scientists and research groups in biomedical engineering.
  • Editorial contributions to scientific journals and peer-reviewing roles in biomaterials and chemistry research.
  • Invited speaker at international conferences, sharing insights on biomedical innovations.

His work has earned wide recognition in academia and industry, establishing him as a key contributor to biomedical advancements.

🌍 Impact and Influence

Dr. Ke’s research has far-reaching implications in medicine and healthcare. His innovations in bioadhesives and nanotechnology-based biomaterials offer safer, more efficient, and cost-effective medical solutions. Some of the major impacts of his work include:

  • Advancing medical adhesives: His supramolecular bioadhesives are revolutionizing wound management, surgical applications, and tissue engineering.
  • Enhancing regenerative medicine: His contributions to biomineralization-inspired materials support bone repair and dental applications.
  • Influencing young researchers: As a mentor and academic, he is guiding future scientists and engineers in biomedical research.
  • Industry collaborations: His expertise in biomaterials and medical polymers has facilitated cross-disciplinary partnerships with healthcare and biotechnology companies.

🔮 Legacy and Future Contributions

Dr. Xiang Ke continues to push the boundaries of biomedical material science, with exciting future directions in:

  • Smart and responsive biomaterials for real-time monitoring and adaptive healing.
  • Advanced hydrogel-based wound dressings with antibacterial and regenerative properties.
  • Innovative nanomedicine approaches for targeted drug delivery and infection control.
  • Sustainable biomaterials that promote eco-friendly and efficient medical applications.

Publication Top Notes

Natural Underwater Bioadhesive Offering Cohesion Modulation via Hydrogen Bond Disruptor: A Highly Injectable and in Vivo Stable Remedy for Gastric Ulcer Resolution

Author: H., Wang, Hao, X., Ke, Xiang, S., Tang, Shuxian, J., Luo, Jun, J., Li, Jianshu

Journal: Small

Year: 2024

A Janus Adhesive Hydrogel with Integrated Attack and Defense for Bacteria Killing and Antifouling

Author: K., Ren, Kai, X., Ke, Xiang, M., Zhang, Miao, J., Xie, Jing, J., Li, Jianshu

Journal: BME Frontiers

Year: 2024

Natural small biological molecule based supramolecular bioadhesives with innate photothermal antibacterial capability for nonpressing hemostasis and effective wound healing.

Author: Xiang Ke, Shuxian Tang, Hao Wang, Yusong Cai, Zhiyun Dong, Mingjing Li, Jiaojiao Yang, Xinyuan Xu, Jun Luo, Jianshu Li

Journal: Biological and Medical Applications of Materials and Interfaces

Year: 2022

Quanbo Ji | Orthopaedics | Best Researcher Award | 13304

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Dr. Quanbo Ji | Orthopaedics | Best Researcher Award 

Dr. Quanbo Ji,The Chinese PLA General Hospital, China

Dr. Quanbo Ji, Deputy Chief Physician and Associate Professor at The Chinese PLA General Hospital, specializes in bone and joint diseases. He has led 14 national research projects, published 67 papers (including Nature Communications), authored 9 books, and holds 8 national patents. His work has been recognized in Nature Communications, “F1000Prime,” and “70 Years of Orthopedics in China.” He has received multiple Outstanding Paper Awards, including from ASIA-APAS-APKS. Dr. Ji also serves on editorial boards and expert committees, contributing significantly to orthopedic advancements in China.

Profile

Orcid 

🎓 Early Academic Pursuits

Dr. Quanbo Ji embarked on his academic journey with a strong foundation in medical sciences, specializing in orthopedic research and treatment. His early studies were marked by exceptional academic performance and a keen interest in bone and joint diseases. He pursued advanced medical education and training, which laid the groundwork for his pioneering research. His dedication to understanding musculoskeletal disorders propelled him to engage in national and international research collaborations, expanding his expertise and contributions to the field of orthopedics.

🏊️ Professional Endeavors

Currently serving as a Deputy Chief Physician and Associate Professor at The Chinese PLA General Hospital, Dr. Ji has played a significant role in advancing orthopedic treatment methodologies. His professional journey includes leadership roles in esteemed medical organizations and editorial appointments in leading scientific journals. His association with Stanford University, where he held positions such as Vice President of ASCVP and Deputy Minister of Academic Affairs at Stanford ACSSS, highlights his global engagement in medical research and innovation.

🌟 Contributions and Research Focus

Dr. Ji’s research primarily focuses on bone and joint diseases, addressing both degenerative and trauma-induced conditions. He has successfully led 14 national research projects, contributing to groundbreaking discoveries in orthopedic science. His work has been published in 67 peer-reviewed journals, including Nature Communications, and recognized for its impact in the medical community.

His research contributions are not only limited to academic publications; he has also authored 9 books and holds 8 national patents, showcasing his commitment to developing innovative orthopedic solutions. His work has been highlighted in “70 Years of Orthopedics in China” and recognized as part of the “Innovative and Transformative Achievements in Chinese Orthopedics Over the Past 70 Years.”

🏆 Accolades and Recognition

Dr. Ji’s excellence has been acknowledged through multiple awards, including:

  • Outstanding Paper Award by ASIA-APAS-APKS
  • Outstanding Paper Award at the Annual Meeting of ASIA
  • Recognition in Nature Communications and F1000Prime for his significant research contributions.

His editorial appointments further demonstrate his influence in the academic world. He serves as:

  • Guest Editor for Aging & Disease (2024-present)
  • Youth Editorial Board Member for Arthroplasty (2021-present)
  • Youth Editorial Board Member for Aging & Disease (2023-present)
  • Topic Editor for Frontiers in Cell and Developmental Biology (2022-2023)

🌐 Impact and Influence

Dr. Ji’s research has been widely cited, with an h-index of 18 and 1854 citations, reflecting the significant influence of his work on the global orthopedic research community. His insights and innovations continue to guide the development of advanced medical treatments for orthopedic conditions. As a member of Beijing Municipal Science & Technology Commission and Zhongguancun Science Park Expert Group, he contributes to shaping policies and advancements in medical technology in China.

🌟 Legacy and Future Contributions

As a dedicated researcher and educator, Dr. Ji is committed to shaping the future of orthopedic medicine. Through his involvement in national research projects, industry collaborations, and mentorship of young researchers, he aims to pioneer new treatment methodologies and enhance medical education in China and beyond.

His work continues to inspire future generations of orthopedic researchers and practitioners, solidifying his legacy as a leader in orthopedic innovation. With ongoing projects and upcoming publications, Dr. Quanbo Ji remains at the forefront of advancing bone and joint disease treatment through cutting-edge research, academic leadership, and groundbreaking medical solutions.

Publication Top Notes

Diagnostic and Therapeutic Potential of Photo-Responsive Nanomaterials in Osteoarthritis.

ContributorsZhang Y; Song J; Li Y; Ji Q

Journal: Aging and disease

Year: 2025

Research trends and frontiers in rehabilitation after total knee arthroplasty: based on bibliometric and visualization analysis.

Contributors: Zhao R; Ren H; Li P; Fan M; Zhao R; Liu T; Wang Y; Ji Q; Zhang G
Journal: Orthopaedic surgery and research
Year: 2024

Current advances of photobiomodulation therapy in treating knee osteoarthritis.

Contributors: Zhang Y; Ji Q

Journal: Frontiers in cell and developmental biology
Year: 2023

Chao Tan | Food Science | Best Researcher Award | 13311

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Assoc. Prof. Dr. Chao Tan | Food Science | Best Researcher Award

Assoc. Prof. Dr. Chao Tan, College of Food Science and Technology, Yunnan Agricultural University, China

Dr. Chao Tan, Associate Professor at the College of Food Science and Technology, Yunnan Agricultural University, specializes in food science, agricultural product processing, and the innovation of functional foods. His research focuses on the bioactivity of functional food ingredients, traditional fermented food processes, and the high-value utilization of agricultural by-products. Dr. Tan has led over 10 research projects, including those funded by the National Natural Science Foundation and the Key Research and Development Program of Yunnan Province. With over 50 academic publications and 10 invention patents, he is deeply committed to advancing food science through collaboration with industry, fostering technological advancements in local food industries.

Profile

Scopus

Early Academic Pursuits 📚

Dr. Chao Tan began his academic journey with a strong foundation in food science and agricultural product processing. His early academic pursuits were deeply rooted in the understanding of food systems, agricultural innovations, and the potential for improving food quality and production. During his studies, Dr. Tan developed an interest in functional food ingredients, which later became one of his core research areas. This interest spurred him to pursue further studies and research, equipping him with the knowledge and skills necessary to tackle the challenges of modern food science.

Dr. Tan’s educational background laid a strong foundation for his future research endeavors. By combining agricultural science with modern technological innovations, he was able to explore ways in which traditional food processing methods could be optimized, particularly in fermented food production. His early academic efforts were pivotal in shaping his approach to integrating traditional knowledge with cutting-edge science.

Professional Endeavors 🔬

After completing his formal education, Dr. Tan took on a role at Yunnan Agricultural University, where he currently serves as an Associate Professor in the College of Food Science and Technology. His professional journey has been characterized by a deep commitment to research, collaboration, and education. Dr. Tan has led numerous research projects, both independently and as a part of collaborative efforts, exploring the intersections of food science, agriculture, and technology.

One of the hallmarks of Dr. Tan’s career is his ability to bridge the gap between academia and industry. By collaborating with various enterprises, he has played a critical role in advancing food product innovation, helping transform research outcomes into practical solutions for the agricultural and food industries. His approach to working with local food producers has had a significant impact on the development of novel food products, facilitating technological upgrades in local characteristic industries, especially within the province of Yunnan.

Contributions and Research Focus 🌱

Dr. Tan’s research spans a range of topics, with a particular emphasis on functional foods, fermented food processing, and high-value utilization of agricultural by-products. He has been instrumental in investigating the bioactivities of functional ingredients, specifically in the context of probiotic fermentation and its impact on food quality. One of his notable projects involved the fermentation of coffee beans using probiotics, which has gained attention for its potential to enhance coffee flavor and quality while promoting health benefits.

Another significant area of Dr. Tan’s research is his work on traditional fermented food processes. By investigating new and innovative methods for fermenting foods, Dr. Tan has contributed to the modernization of these age-old techniques, making them more efficient and accessible to the wider food industry. His research has focused not only on the scientific aspects of fermentation but also on its sensory, physicochemical, and nutritional properties.

Additionally, Dr. Tan’s work on the high-value utilization of by-products has shown the potential of turning food waste into valuable resources. Through his research, he has demonstrated how agricultural by-products can be repurposed for use in functional foods, addressing sustainability challenges within the food industry.

Accolades and Recognition 🏅

Dr. Tan’s contributions to food science and agricultural research have not gone unnoticed. His innovative work has earned him recognition both nationally and internationally. He has published over 50 academic papers, many of which have been featured in prestigious journals in the field of food science. His research on probiotic fermentation and its impact on food quality has been particularly influential, with numerous citations acknowledging his groundbreaking findings.

In addition to his publications, Dr. Tan has also been awarded two Yunnan Provincial Science and Technology Progress Awards, a testament to the practical impact of his research on the local food industry. His work has contributed to the technological advancement of the food processing industry in the region, demonstrating his role as a catalyst for change within the industry.

Publication Top Notes

Exploring the Dual Effects of Coffee Water Extract on Osteoclastogenesis and Osteoblastogenic Mechanisms: In Vitro and In Vivo Insights

Author: Yue Miao, Shuwen Lei, Chunyan Zhao, Lei Zhao, Qingfei Zou, Qiuping Wang, Chao Tan, Chunxiu Peng,  Jiashun Gong

Journal: Food Science and Human Wellness

Year: 2024

Theabrownin ameliorated lipid accumulation via modulating circadian rhythms in oleic acid-induced HepG2 cells

Author: C., Zhao, Chunyan, L., Zhao, Lei, Z., Li, Zelin, C., Peng, Chunxiu, J., Gong, Jiashun
Journal: Functional Foods
Year: 2024