Xiaoming Zeng | Synthetic Chemistry | Best Researcher Award

Xiaoming Zeng | Synthetic Chemistry | Best Researcher Award

Professor, Sichuan University, China

Xiaoming Zeng is a renowned Professor at the College of Chemistry, Sichuan University, China. His academic background and research expertise have earned him numerous accolades, including the Distinguished Young Scholar of the National Natural Science Foundation of China. Xiaoming’s research focuses on synthetic chemistry, catalysis, and organometallic chemistry. He has published numerous papers in reputable journals and has received several awards for his contributions to the field.

Profile

scopus

Education 🎓

Joint Ph.D. Student, Department of Chemistry, University of California, Riverside (UCR), USA (2007-2009)  Ph.D. in Organic Chemistry, Department of Chemistry, Sichuan University, Chengdu, China (2004-2009) B.S. in Applied Chemistry, Sichuan Normal University, Chengdu, China (1998-2002)

Experience 🧪

Professor, College of Chemistry, Sichuan University, China (2017-Present)  Professor, Center for Organic Chemistry (COC), Frontier Institute of Science and Technology, Xi’an Jiaotong University (XJTU), China (2012-2017  JSPS Research Fellow, Department of Chemistry, University of Tokyo, Japan (2010-2011)  Junior Researcher, Department of Chemistry, University of California, Riverside (UCR), USA (2008-2009)

Awards & Honors🏆

Advanced Individual of Sichuan University (2023)  Academic and Technological Leaders in Sichuan Province (2022)  Distinguished Young Scholar of National Natural Science Foundation of China (2021) Thieme Chemistry Journal Award (2020) ACP Lectureship Award (from Singapore and Japan, 2019)

Research Focus 🔍

1. Catalytic Activity of Low-Valent Chromium Complexes: Exploring the catalytic activity of low-valent chromium complexes in synthetic chemistry.
2. Design and Synthesis of Novel Cyclic (Monoamino)carbenes (CMACs): Designing and synthesizing novel CMACs and studying their ligand behaviors in transition metal catalysis.

Publications📚

1. Chromium(II)-Catalyzed Stereoselective Cross-Electrophile Coupling of Geminal Difluoroalkenes with Aliphatic Halides ⚗️💡
2. Metal–carbene-guided twofold cross-coupling of ethers with chromium catalysis 🔩💻
3. Mild ketyl radical generation and coupling with alkynes enabled by Cr catalysis: stereoselective access to E-exocyclic allyl alcohols ⚡️🍺
4. Ring Contraction by Rearrangement of Sterically Congested Cyclic (Amino)(aryl)carbenes 🔗💣
5. Cr-Catalyzed Intramolecular Arylative Cross-Coupling of Unactivated C–H Bonds with C–Halide Bonds 🔩🔗
6. Cr-catalyzed borylation of C(aryl)–F bonds using terpyridine ligand ⚗️💎
7. Chromium-Catalyzed Alkene Isomerization with Switchable Selectivity 🔩🔄
8. Reductive transamidation of tertiary amides with nitroarenes enabled by magnesium ⚡️🔋

9. Yunqian Hou and Xiaoming Zeng* 📄🎉

Conclusion

This researcher is an outstanding candidate for the Best Researcher Award, given their impressive academic background, extensive research experience, strong publication record, and numerous awards and honors. By addressing areas for improvement, the researcher can continue to grow and make even more significant contributions to their field.

YINGHUI HUA | Intelligent Materials | Best Researcher Award

Prof. YINGHUI HUA | Intelligent Materials | Best Researcher Award

Chief Physician, Department of Sports Medicine, Huashan Hospital, Fudan University, China

Prof. YINGHUI HUA is a renowned orthopedic surgeon specializing in sports medicine, arthroscopy, and orthopedic rehabilitation. He serves as Chief Physician at Huashan Hospital, affiliated with Fudan University, and has been a PhD and Master’s supervisor guiding future medical professionals. With an extensive background in knee, shoulder, hip, and ankle surgeries, he has trained internationally in Switzerland, Belgium, Japan, and the USA. Prof. YINGHUI HUA plays a vital role in professional societies, chairing key committees in Asia-Pacific and Chinese medical associations. He has contributed significantly to research on sports injuries, joint preservation, and rehabilitation. Recognized for his excellence, he has received multiple honors in the field of orthopedics and sports medicine.

Profile

orcid

Education 🎓

Harvard Medical School (2017-2018): Global Clinical Scholars Research Training Program. Huashan Hospital, Fudan University (1998-2007): PhD in Sports Medicine, Master’s in Orthopedics. Shanghai Medical University (1993-1998): Bachelor of Medicine & Bachelor of Surgery.

Professional Experience 👨‍⚕️

Huashan Hospital, Fudan University Chief Physician (2015–Present) Associate Chief Physician (2010–2015) Attending Physician (2003–2010) Resident (2000–2003) Fudan University PhD Supervisor (2017–Present) Master’s Supervisor (2011–Present) Associate Professor (2015–Present) Shanghai University of Sport Master’s Supervisor (2020–Present)

Awards & Honors 🏆

Chair of Ankle Committee, Asia-Pacific Society for Knee, Arthroscopy & Orthopedic Sports Medicine. Vice-Chair of Youth Committee & Ankle Working Committee, Chinese Medical Association. Vice-Chair of Orthopedic Rehabilitation Committee, Overseas Chinese Orthopedic Association. Vice-Chair of Sports Health Rehabilitation Committee, Shanghai Rehabilitation Medicine Association. Fellowships: Geneva University Hospital, Antwerp Orthopedic Center, Kobe University Hospital, The Steadman Clinic, San Antonio Orthopedic Hospital.

Research Focus 🔬

Sports-related injuries: Diagnosis and treatment of ACL, meniscus, and ligament injuries. Arthroscopic surgery: Minimally invasive techniques for knee, shoulder, hip, and ankle surgeries. Joint preservation: Novel therapies for cartilage regeneration and osteoarthritis management. Rehabilitation and biomechanics: Enhancing post-surgical recovery and sports performance. Innovative surgical techniques: Development of advanced arthroscopic and regenerative medicine approaches.

Publications

Simulation on detachment and migration behaviors of mineral particles induced by fluid flow in porous media based on CFD-DEM.

🔹 Mechanism analysis and energy-saving strengthening process of separating alcohol-containing azeotrope by green mixed solvent extraction distillation.

🔹 Prediction of hydrodynamics in a liquid–solid fluidized bed using the densimetric Froude number-based drag model.

🔹 CFD-DEM simulation of aggregation and growth behaviors of fluid-flow-driven migrating particles in porous media.

🔹 Flow behaviors of ellipsoidal suspended particles in porous reservoir rocks using CFD-DEM combined with a multi-element particle model.

🔹 Simulation on flow behavior of particles and its effect on heat transfer in porous media.

Conclusion

With an exceptional background in clinical and academic medicine, extensive leadership in professional societies, and global collaborations, this candidate is highly suitable for the Best Researcher Award in the field of Sports Medicine & Orthopedic Surgery. Strengthening high-impact research publications, securing global grants, and integrating technology-driven research would further solidify his standing as a top contender for this prestigious award. 🏆

Vítor Gomes | Fatigue | Best Researcher Award

Dr. Vítor Gomes | Fatigue | Best Researcher Award

Vítor M. G. Gomes, Faculty of Engineering of the University of Porto, Portugal

Vítor Gomes is a mechanical engineer specializing in fatigue analysis, structural design, and computational simulations. He holds a PhD in Mechanical Engineering from the Faculty of Engineering at the University of Porto (FEUP), focusing on fatigue performance methodologies for railway suspension systems. His expertise spans finite element analysis (FEA), 3D modeling, and programming, with proficiency in ANSYS, SolidWorks, Python, and C++. Over the years, Vítor has contributed to the development of railway rolling stock, robotic mechanisms, and material characterization through research and industry collaborations. His work includes project management, consulting, and supervising academic research. Currently, he serves as a Research and Development Engineer, optimizing production processes for electric motor components. He has been actively involved in EU-funded railway innovation projects and has authored several scientific papers. Passionate about engineering advancements, Vítor continues to shape the future of mechanical design and railway technology.

Profile.

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🎓 Education 

PhD in Mechanical Engineering (2019-2023) – FEUP Thesis: “A Methodology for Fatigue Performance of Leaf Springs Suspensions for Freight Wagons” Dissertation: “Numerical Analysis of the Influence of Taper on Strength of Adhesively Bonded Joints” Project: “Design for a Friction Stir Spot Welding Machine” Master’s in Mechanical Engineering (2013-2016) – FCTUC Bachelor’s in Mechanical Engineering (2010-2013) – ISECVítor’s academic journey has focused on mechanical design, fatigue analysis, and railway structures. His research integrates computational simulations with experimental validation, contributing to innovative methodologies in mechanical engineering.

💼 Professional Experience 

🔧 Research & Development Engineer (2024 – Present) – WEG Europe Monitoring and statistical control of production and assembly processes for electric motors and components.

🔬 Research Engineer

Developed, assembled, and tested full-scale railway components. Conducted finite element analysis (FEA) and fatigue assessments. Supervised academic projects and authored scientific publications. Provided consulting services for railway design and engineering projects. Mechanical Design Engineer (2016 – 2017) – TulaLabs Designed vehicle structures, robotic mechanisms, and air-compressed distribution networks. Created technical drawings and reports for engineering projects. 🎓 Intern Assistant Engineer (2014) – WEG Europe Assisted in mechanical design and fatigue testing.

🏆 Awards & Honors 

🇵🇹 DB Rail Academy (2023) – Principles of Bogie Technology Certification 🇪🇺 EN 15085 Certification (2023) – Railway Welding of Vehicles and Components 📜 Product Management Certifications (2024-2025) – Agile Methodologies & Applications to Funded Projects 🔧 Computer & Programming Certifications (2021) – Python, C++, VBA  Ordem dos Engenheiros (2015) – Ethics & Professional Deontology

🔍 Research Focus 

Vítor’s research revolves around fatigue performance, finite element analysis (FEA), and mechanical design, particularly in railway engineering. His PhD focused on fatigue behavior of leaf springs in freight wagons, contributing to safer and more efficient railway suspension systems. He specializes in computational simulations for fatigue, welded joints, and bolted connections, utilizing software like ANSYS, LS-DYNA, and Simpack. His work extends to structural analysis of railway rolling stock, including bogies, wagon platforms, and auxiliary equipment supports. He actively participates in EU-funded projects such as Smart Wagons, Train Solutions, and Ferrovia 4.0, advancing railway innovation through research and consulting.

Publications

Gomes, V. M. G. et al. (2025) Full-Range Probabilistic Fatigue Modelling of 51CrV4 Steel of Parabolic Leaf Springs of Railway Rolling StockMetals (Under Review)

Gomes, V. M. G. et al. (2018) Fatigue Assessment of a Rail Profile under Shuttle Moving LoadsNEDCON Project Report

Carlos, (2020) Fatigue Behavior of Cold Roll-Formed Z-Rails for Rack StructuresMaster Dissertation, FEUP

Silva, Lucas (2020) Monotonic and Fatigue Behaviour of Double Shear Bolted JointsMaster Dissertation, FEUP

Correia, Maria João (2019) Fatigue Behaviour of Cold-Rolled Profiles: Simulation and Characterization StudiesMaster Dissertation, FEUP

Conclusion

Vítor Gomes is a strong candidate for the Best Researcher Award in fatigue analysis and structural durability. His academic background, technical expertise, and research contributions align well with the award criteria. However, enhancing his publication record, international collaborations, and industrial impact would further solidify his standing as a leading researcher in this field.

 

Huajie Luo | Functional materials | Best Researcher Award

Assoc. Prof. Dr Huajie Luo | Functional materials | Best Researcher Award

Scientific researcher at University of science and technology Beijing, China

👨‍🔬 Huajie Luo (b. 1991, Beijing) is an Associate Professor at the University of Science and Technology Beijing (USTB). He specializes in materials science, particularly in the design and performance regulation of ferroelectric ceramics and thin films. His work bridges atomic structures with macroscopic properties like energy storage and electrostrain. Luo has published extensively in top-tier journals and holds multiple patents. He is known for applying advanced techniques like synchrotron XRD and neutron diffraction to study crystal structures. 🌍📚

Pofile

scholar

Education🎓

Huajie Luo earned a Master’s and Ph.D. in Physical Chemistry from the University of Science and Technology Beijing (USTB), where he also completed his postdoctoral research. His doctoral research focused on ferroelectric materials and structure-property relationships. His expertise spans from theoretical modeling to experimental synthesis. 🌟

Experience💼

Luo is currently an Associate Professor at USTB (since 2023) and was a postdoctoral researcher at USTB’s Department of Physical Chemistry (2022-2023). He has participated in significant national research projects and supervised multiple funded initiatives. His broad expertise includes advanced material characterization and design for high-performance devices. 🔬⚙️

Awards and Honors🏅 

Luo has received numerous accolades, including selection for the Postdoctoral Innovative Talent Program and the 2024 Outstanding Postdoctoral Award from USTB. He also earned the 2024 Wiley China High Contribution Author Award and serves on the Youth Editorial Board of Microstructures. 🏆📑

Research Focus🔬

Luo’s research focuses on the design and performance of ferroelectric ceramics and thin films, particularly their macroscopic properties such as electrostrain and energy storage. He uses advanced techniques like synchrotron XRD and neutron diffraction for structural analysis. His work aims to enhance energy storage efficiency and piezoelectric performance. ⚡🧪

Publications

“Chemical design of Pb-free relaxors for giant capacitive energy storage”
Authors: H. Liu, Z. Sun, J. Zhang, et al.
Journal of the American Chemical Society, 145 (21), 11764-11772, 2023

Focuses on the chemical design of lead-free relaxors for large capacitive energy storage.

“Superior capacitive energy-storage performance in Pb-free relaxors with a simple chemical composition”
Authors: Z. Sun, J. Zhang, H. Luo, et al.
Journal of the American Chemical Society, 145 (11), 6194-6202, 2023

Explores the capacitive energy storage performance in Pb-free relaxors with a simplified chemical structure.

“Achieving giant electrostrain of above 1% in (Bi,Na)TiO3-based lead-free piezoelectrics via introducing oxygen-defect composition”
Authors: H. Luo, H. Liu, H. Huang, et al.
Science Advances, 9 (5), eade7078, 2023

Focuses on achieving large electrostrain in (Bi,Na)TiO3-based piezoelectrics with oxygen-defect composition.

“Simultaneously enhancing piezoelectric performance and thermal depolarization in lead-free (Bi, Na) TiO3-BaTiO3 via introducing oxygen-defect perovskites”
Authors: H. Luo, H. Liu, S. Deng, et al.
Acta Materialia, 208, 116711, 2021

Investigates the enhancement of piezoelectric and thermal depolarization properties in (Bi, Na) TiO3-BaTiO3 ceramics.

“Local chemical clustering enabled ultrahigh capacitive energy storage in Pb-free relaxors”
Authors: H. Liu, Z. Sun, J. Zhang, et al.
Journal of the American Chemical Society, 145 (35), 19396-19404, 2023

Highlights the role of local chemical clustering in enhancing energy storage performance in Pb-free relaxors.

Conclusion

In conclusion, Huajie Luo exemplifies the qualities sought after in a Best Researcher Award recipient—exceptional academic productivity, innovative research, and a clear impact on the scientific community. His continued success in both academic and industrial collaborations will likely yield even more groundbreaking results, making him a strong contender for this prestigious award.

chunhong gong | composites | Best Researcher Award

Prof. Dr. chunhong gong | composites | Best Researcher Award

Prof.at Henan University, china

Chunhong Gong, Ph.D., is a professor and doctoral supervisor at Henan University, specializing in nanomaterials and electromagnetic protection. She earned her Ph.D. from Henan University in 2008 and has led multiple National Natural Science Foundation projects. With over 50 publications in top-tier journals, her work spans high-performance magnetic–dielectric composites, carbon-based multifunctional nanomaterials, and their applications in energy conversion systems.

Publication Profile

scopus

Education 🎓

Ph.D. in Materials Science, Henan University (2008) | Extensive research in nanomaterials and composites | Strong academic foundation in energy conversion and electromagnetic materials | Contributor to innovative material design and macro preparation methods | Expertise in functional materials with real-world applications

Experience 🏢

Professor & Doctoral Supervisor, Henan University | Principal investigator in four National Natural Science Foundation projects | Published 50+ papers in high-impact journals | Extensive research in nanomaterial applications and multifunctional composites | Key contributor to energy-efficient material innovations

Awards & Honors 🏅

Recipient of multiple research grants from the National Natural Science Foundation | Recognized for contributions to nanomaterials and electromagnetic protection | Published in esteemed journals like Advanced Functional Materials, Nano Letters, and Nano Research | Leading figure in magnetic–dielectric composite advancements

Research Focus 🔬

High-performance & low-cost magnetic–dielectric composites | Carbon-based multifunctional nanomaterials | Structural design & macro preparation of nanomaterials | Energy conversion system applications | Wide-temperature-range electromagnetic protection materials

Publications 📖

Structural design in reduced graphene oxide (RGO) metacomposites for enhanced microwave absorption in wide temperature spectrum  24 Citations

Interface Engineering of Titanium Nitride Nanotube Composites for Excellent Microwave Absorption at Elevated Temperature 32 Citations

Efficient Production of Graphene through a Partially Frozen Suspension Exfoliation Process: An Insight into the Enhanced Interaction Based on Solid-Solid Interfaces 2 Citations

Conclusion

Dr. Chunhong Gong is a highly qualified candidate for the Best Researcher Award, with significant contributions in magnetic–dielectric composites, carbon-based nanomaterials, and electromagnetic protection materials. Her research impact is evident through high-quality publications, leadership in funded projects, and mentorship. To further strengthen her candidacy, expanding industry collaborations, securing additional global recognitions, and contributing to commercialization efforts could enhance her profile as a top contender for the award.

Jinde Zhang | Bioinspired Functional Surfaces | Best Researcher Award

Mr. Jinde Zhang | Bioinspired Functional Surfaces  | Best Researcher Award

Assistant Professor at University of Massachusetts Lowell,United States

Dr. Jinde Zhang, a Research Assistant Professor at the University of Massachusetts Lowell, specializes in polymer engineering and superhydrophobic coatings. 🌟 With expertise in surface chemistry, drag reduction, and anti-ice adhesion, Dr. Zhang’s research impacts sustainable materials and advanced composites. 🌍 His innovative contributions have been featured in leading scientific journals. 🧪

Publication Profile

orcid

Education🎓

Ph.D. in Plastics Engineering, University of Massachusetts Lowell, 2015.  M.S. in Polymer Chemistry and Physics, University of Science and Technology of China, 2011.  B.S. in Applied Chemistry, Xidian University, China, 2007.

Experience👨‍🔬 

Research Assistant Professor, University of Massachusetts Lowell, 2022–Present. Research Scientist, University of Massachusetts Lowell, 2017–2022  Postdoctoral Researcher, University of Massachusetts Lowell, 2015–2017.

Awards and Honors🏆

Hosted the Polymer Processing Society International Conference, 2018. Region IV Middle School Science Fair Mentor, 2013–2015. Nanodays Volunteer, Boston Museum of Science, 2013–2015.

Research Focus🔬

Superhydrophobic coatings for drag reduction and corrosion resistance. Development of anti-ice adhesion materials.  Recycling impacts on carbon nanotube-filled composites.  Roll-to-roll processing for advanced polymers.

Publications 📖

Tuning Wetting Properties Through Surface Geometry in the Cassie–Baxter State

Journal: Biomimetics, 2025-01-02

DOI: 10.3390/biomimetics10010020

Contributors: Talya Scheff, Florence Acha, Nathalia Diaz Armas, Joey L. Mead, Jinde Zhang

Structure–Property Relationships for Fluorinated and Fluorine-Free Superhydrophobic Crack-Free Coatings

Journal: Polymers, 2024-03-24

DOI: 10.3390/polym16070885

Contributors: Sevil Turkoglu, Jinde Zhang, Hanna Dodiuk, Samuel Kenig, Jo Ann Ratto Ross, et al.

Effect of Composition on Adhesion and Chemical Resistance in Multilayer Elastomer Laminates

Journal: ACS Applied Polymer Materials, 2023-03-30

DOI: 10.1021/acsapm.3c00132

Contributors: Jianan Yi, Mykhel Walker, Jinde Zhang, Christopher J. Hansen, Walter Zukas, Joey Mead

Dynamic Wetting Properties of Silica-Poly(Acrylic Acid) Superhydrophilic Coatings

Journal: Polymers, 2023-02-28

DOI: 10.3390/polym15051242

Contributors: Sevil Turkoglu, Jinde Zhang, Hanna Dodiuk, Samuel Kenig, Jo Ann Ratto, Joey Mead

Wetting Characteristics of Nanosilica-Poly(Acrylic Acid) Transparent Anti-Fog Coatings

Journal: Polymers, 2022-11-01

DOI: 10.3390/polym14214663

Contributors: Sevil Turkoglu, Jinde Zhang, Hanna Dodiuk, Samuel Kenig, Jo Ann Ratto, Joey Mead

The Reduction in Ice Adhesion Using Controlled Topography Superhydrophobic Coatings

Journal: Journal of Coatings Technology and Research, 2022-10-18

DOI: 10.1007/s11998-022-00682-2

Contributors: Yujie Wang, Jinde Zhang, Hanna Dodiuk, Samuel Kenig, Jo Ann Ratto, Carol Barry, Joey Mead

The Effect of Superhydrophobic Coating Composition on Topography and Ice Adhesion

Journal: Cold Regions Science and Technology, 2022-09

DOI: 10.1016/j.coldregions.2022.103623

Contributors: Yujie Wang, Jinde Zhang, Hanna Dodiuk, et al.

Improved Adhesion in Elastomeric Laminates Using Elastomer Blends

Journal: Rubber Chemistry and Technology, 2022-07-01

DOI: 10.5254/rct.22.78968

Contributors: Jianan Yi, Erin Keaney, Jinde Zhang, et al.

Listeria Monocytogenes Biofilm Formation as Affected by Stainless Steel Surface Topography and Coating Composition

Journal: Food Control, 2021-12

DOI: 10.1016/j.foodcont.2021.108275

Contributors: Tingting Gu, Apisak Meesrisom, Jinde Zhang, et al.

Effect of Protein Adsorption on Air Plastron Behavior of a Superhydrophobic Surface
(Details forthcoming or under publication)

Conclusion

Zhang Jinde is an exceptional candidate for the Best Researcher Award due to his innovative contributions to materials science, specifically in the area of superhydrophobic surfaces. His work not only advances academic knowledge but also holds significant potential for real-world applications. Zhang’s ability to bridge interdisciplinary fields and engage with the wider scientific and public community adds further strength to his candidacy. Continued collaboration, diversification of research topics, and enhanced public engagement will elevate his already impressive research trajectory. Therefore, Zhang Jinde is highly deserving of recognition for his groundbreaking work in the realm of polymer engineering and material science.

Xuejie Gao | From Liquid to Solid | Women Researcher Award

Assoc. Prof. Dr Xuejie Gao | From Liquid to Solid | Women Researcher Award

Professor at Dalian Polytechnic University , China

🚀 Dr. Xuejie Gao is an Associate Professor at Dalian Polytechnic University, specializing in 3D printing for lithium-ion and solid-state batteries. 📚 Holding a Ph.D. in Mechanical and Material Engineering from Western University, she leads innovative battery technology research. 🔋 Her work focuses on sustainable energy solutions, advancing energy storage efficiency. ✍️ Dr. Gao has authored high-impact publications in top-tier journals like Advanced Materials and Energy Storage Materials. 🌍 She collaborates with academic and industrial leaders, driving breakthroughs in next-generation battery technologies.

Publication Profile

scopus

Education🎓

Dr. Xuejie Gao earned her Ph.D. in Mechanical and Material Engineering from Western University, where she focused on 3D printing applications in battery development. 🧪 Her research emphasized transitioning from liquid to solid-state batteries to improve energy efficiency. 📈 Dr. Gao completed her undergraduate and master’s studies in Material Science, laying the foundation for her advanced research in sustainable energy storage. 🌱 She received multiple scholarships during her academic journey, highlighting her dedication and exceptional performance in material engineering and energy applications.

Experience👩‍🏫 

Dr. Gao serves as an Associate Professor at Dalian Polytechnic University, engaging in cutting-edge research and teaching. 💡 She has led six ongoing projects and successfully completed three, emphasizing battery innovation. ⚙️ Dr. Gao collaborates with the industry, contributing to two sponsored projects involving battery manufacturing advancements. 🏭 Her expertise extends to guiding Ph.D. students and acting as a Youth Editorial Board member for Renewables and eScience. 🌏 Dr. Gao bridges academia and industry, fostering advancements in sustainable battery technologies.

Awards and Honors🏆 

Dr. Gao has received accolades for her pioneering work in battery technology. 🌟 She is a CTAPI Fellow, recognized for her contributions to energy storage and advanced materials. 📜 Dr. Gao’s publications in high-impact journals reflect her leadership in the field. 🧑‍🔬 Her patents in process further cement her innovative contributions. 🌍 As a member of editorial boards and industry collaborations, Dr. Gao’s influence extends across academic and commercial sectors. 💼 Her role in shaping the next generation of batteries has garnered widespread recognition.

Research Focus🔬 

Dr. Gao’s research targets the development of 3D-printed lithium-ion and solid-state batteries. ⚡ Her focus lies in enhancing battery performance, reducing manufacturing costs, and fostering sustainability. 🧩 Key areas include material development, advanced fabrication techniques, and energy efficiency improvements. 🏭 Collaborating with Shanghai Carbon Industrial Co., she applies her findings to real-world applications. 🚘 Dr. Gao’s innovations aim to transform industries such as electric vehicles and renewable energy storage. 📊 Her interdisciplinary approach integrates material science, engineering, and energy technologies.

Publications 📖

“Separator engineering: Assisting lithium salt dissociation and constructing LiF-rich solid electrolyte interphases for high-rate lithium metal batteries” (2025): Focuses on improving the efficiency of lithium metal batteries by enhancing lithium salt dissociation and creating stable solid electrolyte interphases (SEI).

“Long-lifespan thin Li anode achieved by dead Li rejuvenation and Li dendrite suppression for all-solid-state lithium batteries” (2024): This study introduces methods for rejuvenating dead lithium and suppressing lithium dendrites to improve the lifespan and safety of solid-state batteries.

“Carboxymethyl chitosan composited poly(ethylene oxide) electrolyte with high ion conductivity and interfacial stability for lithium metal batteries” (2024): Examines an electrolyte composite that enhances ion conductivity and stability, crucial for improving the performance and longevity of lithium metal batteries.

“Natural biopolymers derived kinematic and self-healing hydrogel coatings to continuously protect metallic zinc anodes” (2024): Investigates self-healing hydrogel coatings that protect zinc anodes in batteries, enhancing their stability and lifespan.

“Phosphotungstic acid decorated free-standing electrode accelerates polysulfides conversion for high-performance flexible Li–S batteries” (2024): Introduces a novel electrode material that accelerates the conversion of polysulfides, improving the performance of lithium-sulfur (Li-S) batteries.

“All-in-one Janus covalent organic frameworks separator as fast Li nucleator and polysulfides catalyzer in lithium-sulfur batteries” (2024): This research presents a separator made of covalent organic frameworks that acts as both a lithium nucleator and a catalyst for polysulfides in Li-S batteries.

“ZIF-67-Derived Flexible Sulfur Cathode with Improved Redox Kinetics for High-Performance Li-S Batteries” (2024): Focuses on a new sulfur cathode derived from ZIF-67, which improves redox kinetics and enhances the performance of Li-S batteries.

“Lignin-reinforced PVDF electrolyte for dendrite-free quasi-solid-state Li metal battery” (2024): This study uses lignin-reinforced PVDF electrolyte to prevent dendrite formation, improving the performance of quasi-solid-state lithium metal batteries.

“Dual-single-atoms of Pt–Co boost sulfur redox kinetics for ultrafast Li–S batteries” (2024): Highlights the use of Pt-Co single atoms to enhance sulfur redox kinetics, enabling faster and more efficient Li-S batteries.

“Ester-Enhanced Inorganic-Rich Solid Electrolyte Interphase Enabled Dendrite-Free Fast-Charging Lithium Metal Batteries” (2024): Focuses on creating a dendrite-free, fast-charging lithium metal battery by enhancing the solid electrolyte interphase with esters and inorganic materials.

Conclusion

Dr. Gao Xuejie’s expertise in advanced battery technologies, particularly her research on solid-state batteries and the application of 3D printing for energy storage, positions her as an exceptional candidate for the Best Researcher Award. Her continuous pursuit of innovation in the energy sector, along with her substantial academic achievements, makes her a standout researcher deserving of recognition in this category.

Albandari Alrowaily | Material Science | Best Researcher Award

Assist. Prof. Dr Albandari Alrowaily | Infectious diseases | Best Researcher Award

Assist Prof at  Princess Nourah bint Abdulrahmman University, Saudi Arabia

🎓 Assist. Prof. Dr Albandari Alrowaily is an Assistant Professor of Physics at Princess Nourah Bint Abdurrahman University, Saudi Arabia. She specializes in theoretical nuclear and atomic physics with a Ph.D. from the University of North Texas. Starting her career as a high school physics teacher, she progressed through roles such as lecturer, committee member, and advisor. Passionate about education quality, she now serves as the Teaching and Learning Quality Manager. Assist. Prof. Dr Albandari Alrowaily is an advocate for empowering women in science, holding memberships in ISMWS and APS. Her contributions to academia include teaching a wide range of physics courses, mentoring students, and participating in critical departmental activities. Outside work, she actively supports cultural and environmental initiatives.

Professional Profiles:

Education 🎓

Ph.D. in Theoretical Nuclear and Atomic Physics (2021): University of North Texas, Denton, TX, USA. Master’s in Theoretical Nuclear Physics (2008): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Bachelor’s in Physics (1999): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Additional Certificates: Management, document organization, research ethics, teamwork, professional basics, and ESL.

Experience 👩‍🏫

High School Physics Teacher (1999–2000): Al-Jouf City. Teaching Assistant (2001–2007): Princess Nourah University. Committee Member: Grades Monitoring & Interviews (2001–2007). Lecturer (2008–2021): Princess Nourah University. Assistant Professor (2021–Present): Physics Department. Quality Manager (2022–Present): Teaching & Learning, College of Science. Additional Roles: Academic advisor, training supervisor, committee leader, and lab organizer.

Awards and Honors🏅

Ideal Student Awards (1992 & 1995): Al-Jouf Region. Distinguished Student (2000): Princess Nourah University. Travel Awards (2018–2019): DAMOP, UNT, and COS for research presentations. Recognized for exceptional contributions to academic excellence and community engagement.

Research Focus 🔬

Theoretical studies on nuclear and atomic physics, focusing on quantum mechanics, particle interactions, and advanced simulations. Proficient in computational methods using Matlab, Python, and Mathematica for modeling complex systems.  Research on nuclear reactions, atomic energy levels, and spectroscopic analysis. Advocates for interdisciplinary applications of physics to solve global challenges.

✍️Publications Top Note :

High-Performance Supercapacitors (ZnSe/MnSe)

Study: Development of ZnSe/MnSe composites for supercapacitor electrodes using hydrothermal techniques.

Publication: Journal of Physics and Chemistry of Solids, 2024, 49 citations.

Impact: Enhanced capacitive performance through novel material synthesis.

2. g-C3N4/NiIn2S4 for Supercapacitors

Study: Hydrothermal fabrication of g-C3N4/NiIn2S4 composite materials.

Publication: Ceramics International, 2024, 35 citations.

Impact: Promising electrode material with high efficiency.

3. Nonlinear Plasma Waves

Study: Interaction of solitons in pair-ion–electron plasmas using the Hirota method.

Publication: Physics of Fluids, 2023, 30 citations.

Impact: Advances theoretical understanding of electrostatic plasma dynamics.

4. SrCeO3/rGO for Oxygen Evolution Reaction

Study: Hydrothermal synthesis of SrCeO3 nanocomposites for electrocatalysis.

Publication: Fuel, 2024, 27 citations.

Impact: Enhanced catalytic efficiency for clean energy applications.

5. BiFeO3 Supercapacitor Applications

Study: Mn-doped BiFeO3 as an electrode material for supercapacitors.

Publication: Journal of Energy Storage, 2024, 20 citations.

Impact: Novel application of perovskite materials for energy storage.

6. Radiation Shielding Polymers

Study: Optical and mechanical improvements in polyvinyl alcohol composites.

Publication: Journal of Rare Earths, 2023, 18 citations.

Impact: Optimized materials for gamma-ray attenuation.

7. NiS2@SnS2 Nanohybrids

Study: Water-splitting applications of NiS2@SnS2 nanohybrids.

Publication: Materials Chemistry and Physics, 2024, 15 citations.

Impact: Low-cost, efficient electrocatalysts for sustainable energy.

8. Ce-doped SnFe2O4 Supercapacitors

Study: Hydrothermal synthesis enhancing electrochemical performance.

Publication: Electrochimica Acta, 2024, 13 citations.

Impact: Improved energy storage capabilities of supercapacitors.

Conclusion

The candidate has a robust academic background, extensive teaching experience, and proven leadership capabilities, making them a strong contender for the Research for Best Researcher Award. Strengthening the portfolio with focused research publications and demonstrating broader impacts of their work will further enhance their prospects for this prestigious recognition.

Julia Puseletso Mofokeng | nanocomposites | Women Researcher Award

Dr. Julia Puseletso Mofokeng | nanocomposites | Women Researcher Award

Senior Lecturer / Researcher at University of the Free State, South Africa

Dr. Julia Puseletso Mofokeng is a Senior Lecturer and Researcher in the Department of Chemistry at the University of the Free State (UFS), QwaQwa Campus, South Africa. She holds a Ph.D. in Polymer Science (2015) from UFS, where she also obtained her M.Sc. and B.Sc. degrees. Her research focuses on polymer-titania nanocomposites and sustainable polymers. As an NRF Y2-rated Emerging Researcher (2021-2025), Dr. Mofokeng is recognized for her contributions to polymer science, receiving the Best Emerging Researcher award in Natural and Agricultural Sciences (QwaQwa Campus) in 2016.

Publication Profile

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scopus

Academic and Research Contributions

Dr. Mofokeng teaches Honours-level modules in Physical Polymer Science and Polymer Testing and Characterization at UFS. She supervises Honours, Master’s, and Ph.D. students, actively publishing research in polymer science. In her roles, she oversees the research laboratory, sources research funding, and contributes to curriculum development.

Professional Experience

Since 2019, Dr. Mofokeng has been a Senior Lecturer, previously serving as a Lecturer (2017–2018), Officer in Professional Services (2011–2017), and Research Assistant (1999–2011). Her extensive experience in research operations has involved hands-on roles in laboratory management, equipment maintenance, student training, and conducting complex polymer analyses.

Skills and Expertise

Dr. Mofokeng is proficient in a variety of scientific instruments, including DSC, TGA, FTIR, DMA, and rheometers, essential for polymer characterization and analysis. She has experience with SEM, TEM, and STEM techniques and is skilled in synthesizing polymers, composites, and nanocomposites.

Publication  Top Notes

 

Preparation of PLA/PHBV/GO Composites for Lead Ion Removal

Publication: Polymer Composites, 2024

Focus: Develops PLA/PHBV/GO composites specifically for selectively removing Pb(II) ions from water.

Synthesis of Graphene Oxide for Lead Ion Removal

Publication: Carbon Trends, 2024

Focus: Details the synthesis and properties of GO aimed at lead ion adsorption in water.

Morphology and Thermal Properties of PLA/PHBV/GO Composites

Publication: Polymer Engineering and Science, 2024

Focus: Analyzes structural and thermal aspects of PLA/PHBV/GO composites.

Properties of Polybutylene Succinate-Pineapple Leaf Fiber Composites

Publication: Heliyon, 2023

Focus: Discusses chemical and thermal properties of eco-friendly PBS composites using waste fibers.

Review on Graphene-Based Biodegradable Polymer Composites

Publication: Materials, 2023

Focus: Reviews the use of graphene in polymer composites for heavy metal adsorption in water.

Polysiloxane in Guar Gum-Polyaniline Matrix

Publication: International Journal of Biological Macromolecules, 2018

Focus: Studies the effect of polysiloxane on the thermal and optical properties of a modified guar gum matrix.

LDPE with Carbon Black, Zinc, and Paraffin Wax

Publication: Journal of Polymer Research, 2017

Focus: Investigates the thermo-switch properties of LDPE composites with various additives.

Thermal Stability of PCL/PLA Composites with Layered Silicates

Publication: Polymer Testing, 2016

Focus: Explores thermal stability enhancements in PCL/PLA composites.

PLA/PHBV Nanocomposites with TiO₂ as Filler

Publication: Journal of Applied Polymer Science, 2015

Focus: Analyzes the thermal degradation and morphology of PLA/PHBV blends with TiO₂ fillers.

Dynamic Mechanical Properties of Various Biodegradable Polymer Blends

Publication: Thermochimica Acta, 2015

Focus: Examines mechanical properties of PLA/PHBV, PLA/PCL, and PHBV/PCL blends with TiO₂ nanofillers.

 

Conclusion

Dr. Mofokeng’s achievements and dedication make her a strong candidate for the Research for Women Researcher Award. Her contributions to polymer science, leadership in academia, and consistent service to the University of the Free State highlight her commitment to her field and inspire future women researchers. With continued efforts to expand her international research footprint, she stands poised to make an even greater impact in polymer science.

Yuecun wang | nanomechanics of semiconductor | Best Researcher Award

Assoc Prof Dr. Yuecun wang | nanomechanics of semiconductor | Best Researcher Award

Associate Professor at Xi’an Jiaotong University, China

Yue Wang is an accomplished Assistant Professor at Xi’an Jiaotong University’s School of Material Science and Engineering. With a deep focus on nanomechanics and electrochemical reactions, his research has contributed significantly to materials science, particularly in magnesium alloys and battery technologies. Wang completed his Ph.D. in 2018, building on extensive hands-on experience with TEM and other nanotechnology techniques. He is a recipient of numerous prestigious awards and has several high-impact publications in journals like Nature Communications and Science. His work pushes the boundaries of materials science, enabling innovations in corrosion resistance and energy storage. 🧪📚🔬

 

Publication Profile

Education🎓📖🌍

Yue Wang holds a Ph.D. in Materials Science and Engineering from Xi’an Jiaotong University, where he started his studies in 2013. He completed a Bachelor’s in the same field from Northwestern Polytechnical University in 2013. He was also a visiting student at Lawrence Berkeley National Lab, University of California, Berkeley, from February 2017 to February 2018. During this period, he gained valuable exposure to cutting-edge research environments, broadening his knowledge of nanomaterials and real-time electrochemical reactions. His academic journey showcases a strong foundation in both theoretical and applied materials science.

Experience🏫🧑‍🏫🛠️

Yue Wang has been with Xi’an Jiaotong University’s School of Material Science and Engineering since 2018, where he now serves as a tenured Assistant Professor. Prior to his tenure, he worked extensively in in-situ environmental TEM and nanomechanical testing, producing significant contributions to battery technologies and corrosion resistance. His research focuses on Si-based materials, Mg alloys, and novel microscopy techniques. He also served as a Teaching Assistant at the university, where he taught the course on mechanical properties of materials. His career reflects a strong emphasis on research and education in materials science.

Awards and Honors🏆

Yue Wang has received several prestigious awards throughout his career. He was recognized for his high-impact contributions in materials science, including publishing in leading journals such as Science and Nature Communications. His innovative research in the field of nanomechanics and corrosion resistance has earned him multiple research grants and distinctions within academic circles. He has also been an invited speaker at several international conferences, where his work on Si-based materials and Mg alloys has been widely lauded. His dedication to pushing the boundaries of materials research continues to earn him accolades. 🥇🎖️

Research Focus 🔬🧲📐

Yue Wang’s research is primarily centered on the mechanical properties and nanostructures of Si-based materials and metals. His work utilizes in-situ quantitative nanomechanics to probe these materials at the micro and nano levels. Wang’s expertise extends to environmental TEM studies, particularly in observing real-time electrochemical reactions in lithium/sodium ion batteries and developing anti-corrosion techniques for magnesium alloys. He also specializes in advanced microscopy, nanomechanical testing, and fabrication using Focused Ion Beam (FIB) technology, contributing to improved corrosion resistance and battery efficiency.

Publication  Top Notes

  • Exceptional plasticity in the bulk single-crystalline van der Waals semiconductor InSe
    Science, 2020, 369 (6503), 542-545
    Citations: 220
    This work explores the mechanical properties of InSe, a van der Waals semiconductor, highlighting its exceptional plasticity, a critical factor for flexible electronics.
  • Turning a native or corroded Mg alloy surface into an anti-corrosion coating in excited CO2
    Nature Communications, 2018, 9 (1), 4058
    Citations: 98
    The paper introduces a method to enhance the corrosion resistance of Mg alloys through a CO2-based treatment.
  • In situ TEM study of deformation-induced crystalline-to-amorphous transition in silicon
    NPG Asia Materials, 2016, 8 (7), e291-e291
    Citations: 81
    A detailed study using transmission electron microscopy (TEM) to observe how crystalline silicon transitions to an amorphous state under mechanical stress.
  • Chestnut-like SnO2/C nanocomposites with enhanced lithium-ion storage properties
    Nano Energy, 2016, 30, 885-891
    Citations: 66
    This research investigates nanocomposites for improving lithium-ion battery performance.
  • Tension–compression asymmetry in amorphous silicon
    Nature Materials, 2021, 20 (10), 1371-1377
    Citations: 52
    The work explores the mechanical behavior of amorphous silicon, especially the asymmetry between tension and compression.
  • High-throughput screening of 2D van der Waals crystals with plastic deformability
    Nature Communications, 2022, 13 (1), 7491
    Citations: 45
    This paper focuses on the search for two-dimensional van der Waals materials with superior plasticity for next-generation flexible electronics.
  • Thermal treatment-induced ductile-to-brittle transition of submicron-sized Si pillars fabricated by focused ion beam
    Applied Physics Letters, 2015, 106 (8)
    Citations: 36
    The study analyzes the impact of thermal treatment on the mechanical properties of silicon structures at the submicron scale.
  • Ceramic nanowelding
    Nature Communications, 2018, 9 (1), 96
    Citations: 34
    This paper discusses the novel concept of ceramic nanowelding, which could have implications for nanomanufacturing and electronics.
  • In situ transmission electron microscopy study of the electrochemical sodiation process for a single CuO nanowire electrode
    RSC Advances, 2016, 6 (14), 11441-11445
    Citations: 26
    In this work, the authors investigate the sodiation process in copper oxide nanowires, which is relevant for battery technology.
  • In situ TEM observing structural transitions of MoS2 upon sodium insertion and extraction
    RSC Advances, 2016, 6 (98), 96035-96038
    Citations: 21
    This research reveals how MoS2 structures change during sodium ion insertion, providing insights for energy storage applications.

Conclusion

The candidate’s expertise in nanomechanics, in-situ TEM, and nanomaterial testing positions them as a leader in their field, making them a worthy candidate for the Best Researcher Award. Their ability to innovate and apply cutting-edge techniques in materials science, combined with their teaching prowess, sets them apart. Expanding their international collaborations and research impact would further elevate their profile for such prestigious recognition.