Fei Mao | Materials Science and | Best Researcher Award

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Prof.Β Dr. Fei Mao | Materials Science and Engineering | Best Researcher Award

Researcher at Jiangsu University Affiliated People’s Hospital, China

Prof. Fei Mao is a highly accomplished biomedical researcher specializing in mesenchymal stem cells, exosomes, and their therapeutic applications in inflammatory bowel disease (IBD) and colorectal cancer. With over two decades of academic experience and a strong publication record spanning high-impact journals, his research demonstrates significant depth and innovation. His work has advanced understanding of molecular mechanisms such as miRNA regulation, pyroptosis, and gut microbiota interactions, highlighting its translational relevance. Prof. Mao’s international exposure, including a postdoctoral fellowship at MD Anderson Cancer Center, adds further value to his global scientific perspective. While expanding research breadth, increasing sole authorship in top-tier journals, and detailing grant and citation metrics could strengthen his profile, his consistent focus and leadership in this niche field make him a strong candidate for the Best Researcher Award. His contributions have had a meaningful impact on regenerative medicine and the potential treatment of chronic gastrointestinal diseases.

Professional Profile

EducationπŸŽ“

Prof. Fei Mao has a strong academic foundation rooted in medical and pharmaceutical sciences. He began his academic journey with a Bachelor’s degree in Medical Examination from the School of Medicine at Jiangsu University (1997–2002), followed by a Master’s degree in Pharmacognostics at the College of Food Science and Technology, also at Jiangsu University (2002–2005). He further advanced his expertise by earning a Ph.D. in Medicine from the School of Medicine, Jiangsu University (2004–2010), where he developed a strong focus on biomedical research. To broaden his research experience and global exposure, he completed a postdoctoral fellowship at the prestigious MD Anderson Cancer Center, University of Texas, USA (2012–2014), one of the world’s leading cancer research institutions. Since 2018, Prof. Mao has been serving as a Professor at the School of Medicine, Jiangsu University, where he continues to lead research initiatives and mentor the next generation of medical scientists.

Professional ExperienceπŸ“

Prof. Fei Mao has built a distinguished professional career in biomedical research and academia. He began his postdoctoral training at the renowned MD Anderson Cancer Center, University of Texas, USA (2012–2014), where he deepened his expertise in cancer biology and regenerative medicine. Upon returning to China, he joined the School of Medicine at Jiangsu University, where he has served as a Professor since 2018. In this role, he has led numerous research projects focused on mesenchymal stem cells, exosomes, and their therapeutic applications in inflammatory bowel disease and colorectal cancer. His professional work is characterized by a strong translational focus, aiming to bridge the gap between laboratory findings and clinical treatments. Prof. Mao has published extensively in peer-reviewed journals, contributed to scientific reviews and book chapters, and collaborated with international researchers. His leadership in academic research and dedication to innovation have earned him recognition as a key figure in his field.

Research InterestπŸ”Ž

Prof. Fei Mao’s research interests lie at the intersection of regenerative medicine, immunology, and gastrointestinal diseases. His primary focus is on the therapeutic potential of mesenchymal stem cells (MSCs) and exosomes in treating inflammatory bowel disease (IBD) and related colorectal cancer. He is particularly interested in understanding the molecular and cellular mechanisms through which MSCs and their exosomes modulate immune responses, regulate macrophage function, and influence pathways such as ubiquitination, pyroptosis, ferroptosis, and the gut microbiota-metabolome axis. By exploring the roles of microRNAs, long non-coding RNAs, and key signaling pathways like JAK/STAT and ERK, his research aims to uncover novel therapeutic targets and improve treatment strategies for chronic inflammatory conditions. Prof. Mao’s work bridges basic science and clinical application, contributing to the development of next-generation cell-based therapies. His dedication to this niche field positions him as a leading researcher in stem cell therapy and gastrointestinal disease intervention.

Award and HonorπŸ†

While specific awards and honors are not explicitly listed in the provided profile, Prof. Fei Mao’s academic achievements and research contributions strongly suggest a career marked by professional recognition. His appointment as a Professor at Jiangsu University since 2018 reflects institutional trust and recognition of his expertise. His postdoctoral fellowship at the prestigious MD Anderson Cancer Center, University of Texas, indicates international recognition of his potential and scientific capability. Additionally, his extensive publication record in reputable international journals highlights his research impact and standing within the scientific community. His collaborative work with global researchers and leadership in innovative studies on stem cell therapies for inflammatory bowel disease further underline his influence in the field. It is likely that Prof. Mao has received internal university commendations, research grants, and possibly national or regional awards in China, which would be consistent with the level of academic productivity and impact demonstrated throughout his career.

Research SkillπŸ”¬

Prof. Fei Mao possesses a comprehensive and advanced set of research skills in the fields of regenerative medicine, molecular biology, and immunology. His expertise lies in the isolation and therapeutic application of mesenchymal stem cells (MSCs) and exosomes, particularly in the treatment of inflammatory bowel disease (IBD) and colorectal cancer. He is highly skilled in designing and conducting in vivo and in vitro experiments, utilizing mouse models to study disease mechanisms and therapeutic outcomes. Prof. Mao has extensive experience in molecular techniques such as gene expression analysis, microRNA profiling, western blotting, immunohistochemistry, and pathway analysis involving signaling molecules like NF-ΞΊB, JAK/STAT, and ERK. He also has strong capabilities in gut microbiota and metabolomic research, integrating omics technologies to understand host-microbe interactions. His ability to translate complex molecular findings into therapeutic insights demonstrates not only technical proficiency but also a deep understanding of biomedical research with clinical relevance.

ConclusionπŸ’‘

Prof. Fei Mao is a highly suitable candidate for a Best Researcher Award, particularly in the biomedical and translational medicine fields. His focused research on mesenchymal stem cells and inflammatory diseases has made valuable contributions to both basic science and potential clinical applications.

While some diversification and additional metrics (citations, grants) would further validate his standing, his sustained publication output, innovative methodologies, and international experience strongly support the merit of this nomination.

Publications Top Noted✍

  1. Title: Advancing therapeutic strategies for graft-versus-host disease by targeting gut microbiome dynamics in allogeneic hematopoietic stem cell transplantation: current evidence and future directions
    Authors: Not provided
    Year: Not provided
    Citations: 0

  2. Title: Human umbilical cord mesenchymal stem cell-derived exosomes repair IBD by activating the SIRT1-FXR pathway in macrophages
    Authors: Not provided
    Year: 2025
    Citations: 0

  3. Title: The role of COX-2 and its use as a therapeutic target in IBD and related colorectal cancer
    Authors: Not provided
    Year: Not provided
    Citations: 0

  1. Title: Mesenchymal stem cell in immunomodulation of dendritic cells: Implications for inflammatory bowel disease therapy
    Authors: Not provided
    Year: Not provided
    Citations: 0

  2. Title: HucMSC-Ex alleviates inflammatory bowel disease by regulating O-GlcNAcylation modification of RACK1 in intestinal epithelial cells
    Authors: Not provided
    Year: 2025
    Citations: 0

  1. Title: Flos lonicerae polysaccharide alleviates inflammatory bowel disease by improving intestinal microbiota and inhibiting oxidative stress and the NF-ΞΊB pathway
    Authors: Not provided
    Year: 2025
    Citations: 0

  1. Title: Emerging role of small RNAs in inflammatory bowel disease and associated colorectal cancer (Review)
    Authors: Not provided
    Year: Not provided
    Citations: 2

  1. Title: The role of suppressor of cytokine signaling 3 in inflammatory bowel disease and its associated colorectal cancer
    Authors: Not provided
    Year: Not provided
    Citations: 0

  1. Title: Intestinal mucus barrier: A potential therapeutic target for IBD
    Authors: Not provided
    Year: Not provided
    Citations: 5

  2. Title: Mechanism of cell death and its application in the repair of inflammatory bowel disease by mesenchymal stem cells
    Authors: Not provided
    Year: Not provided
    Citations: Not provided

Yadian Xie | Materials Science | Best Researcher Award

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Yadian Xie - Materials Science and Engineering - Best Researcher Award

Guizhou Minzu University - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Yadian Xie is a dedicated researcher and academic professional based in Guiyang, Guizhou. He serves as a postdoctoral researcher, associate professor, and doctoral supervisor with extensive expertise in chemistry and material sciences. His scientific work spans cutting-edge innovations in low-dimensional materials, particularly black phosphorus. Over the years, Dr. Xie has led several prestigious research projects funded by national and provincial institutions. His dedication to excellence is reflected in his numerous awards and recognitions. With over 60 high-impact publications and multiple invention patents, Dr. Xie plays a vital role in bridging fundamental research with industrial applications.

EDUCATION

Dr. Yadian Xie earned his Ph.D. in Chemistry through a joint program between UniversitΓ© du QuΓ©bec, Canada, and the National Center for Nanoscience and Technology, China. This cross-institutional academic background has equipped him with a solid foundation in advanced chemical engineering and nanoscience. His postdoctoral fellowship at Peking University further refined his research capabilities, especially in low-dimensional materials. His educational journey reflects a consistent trajectory toward innovation in material chemistry, making him a knowledgeable and skilled figure in his field. This academic experience provides the basis for his interdisciplinary research and mentoring of future scientists.

PROFESSIONAL EXPERIENCE

Since May 2020, Dr. Xie has served as an Associate Professor at the School of Chemical Engineering, Guizhou Minzu University. From 2017 to 2020, he completed a postdoctoral fellowship at Peking University. His academic career demonstrates a steady progression through significant research and teaching roles. At Guizhou Minzu University, he also contributes to guiding graduate students and supervising doctoral research. His responsibilities include teaching, developing research infrastructure, and leading government-funded projects. His dual roles as researcher and educator position him as a leading figure in chemical engineering education and scientific innovation in Guizhou and beyond.

RESEARCH INTEREST

Dr. Xie’s research primarily focuses on the large-scale synthesis and real-world applications of black phosphorus and other low-dimensional materials. He investigates their optical, electrical, and magnetic properties through both experimental and computational approaches. His work extends to application-oriented research on emerging materials used in batteries and gas sensors. His scientific inquiries aim to understand and exploit the structural behaviors of materials at the nanoscale. This multidisciplinary focus allows him to contribute significantly to materials science, energy storage, and environmental applications, making his research both foundational and practically relevant.

AWARD AND HONOR

Dr. Xie has earned several prestigious awards for his academic and scientific achievements. These include the First Prize for Higher Education Teaching Achievement in Guizhou and the Third Prize for Scientific and Technological Progress in the province. He was also named β€œMost Outstanding Science and Technology Worker” in Guizhou. Notably, he received recognition for a provincial β€œGolden Course” in Materials Science and led major innovation projects. His honors reflect a strong commitment to education, research, and technological advancement, highlighting his role as a key contributor to the scientific and academic communities in China.

RESEARCH SKILL

Dr. Xie possesses a wide range of research skills, including chemical vapor transport, photonic crystal synthesis, and computational modeling of low-dimensional materials. He has successfully managed several complex research projects funded by national and provincial agencies. His technical expertise includes developing innovative sensors, battery materials, and advanced alumina compounds. He is also proficient in academic writing, peer review, and patent development. These skills allow him to bridge the gap between theoretical materials science and practical applications, ensuring his research delivers measurable impact in both academia and industry.

PUBLICATIONS

Title: Pyridine-functionalized chiral polyoxometalates via in situ degradation
Authors: Yu Xia, Tao Zhang, Luyu Tian, Hailiang Hu, Gang Li
Journal: Journal of Molecular Structure (2025)

Title: Post-synthetic modification strategy to immobilize acidic units within metal-organic frameworks or covalent organic frameworks for boosted proton conductivity
Authors: Hailiang Hu, Yu Xia, Xin Wang, Yadian Xie, Gang Li
Journal: [Journal not specified in source – likely Chemistry or Materials journal, inferred]

Title: Scalable fabrication of graphene-basalt composite fabric via Layer-by-Layer deposition for efficient treatment of Cr(VI) βˆ’ contaminated water
Authors: Hanqing Yu, Shijiao Li, Zheng Zeng, Xin Tong, Yadian Xie
Journal: Separation and Purification Technology (2025)

Title: Research progress on enhancing particulate matters removal enabled by triboelectric effect
Authors: Yi Dai, Huan Li, Qiyu He, Yadian Xie, Shuangxi Nie
Journal: [Journal not specified in source – possibly Environmental Science or Materials journal]

CONCLUSION

Yadian Xie exemplifies excellence in research, education, and innovation. His work not only enhances academic understanding but also translates to real-world industrial solutions. Through his leadership in high-impact projects and consistent scholarly output, he contributes to advancing both science and technology in China and globally. His mentorship of future researchers and commitment to teaching excellence solidify his role as a prominent figure in chemical engineering. As a recognized academic and innovator, Dr. Xie’s work continues to influence the development of new materials and sustainable technologies with broad societal impact.

Mohammad Sadegh Shakeri | Materials Science and Engineering | Innovations in Materials Engineering Award

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Dr. Mohammad Sadegh Shakeri | Materials Science and Engineering | Innovations in Materials Engineering Award

Assistant Professor at Institute of Nuclear Physics Polish Academy of Sciences, PL-31342 Krakow, Poland

Dr. Mohammad Sadegh Shakeri is an accomplished materials scientist with extensive expertise in magnetic materials and nanostructures. Currently an Assistant Professor at the Institute of Nuclear Physics Polish Academy of Sciences in Krakow, Poland, he specializes in the study of photocatalytic materials, their synthesis, and applications. With a solid foundation in materials science and engineering, his academic journey reflects a commitment to advancing the field through research and innovation.

Profile

Orcid

Education

Dr. Shakeri completed his education in Materials Science and Engineering, earning a Ph.D. from the Materials & Energy Research Centre in Iran (2017). His academic credentials include a Master’s degree from the University of Tabriz (2012) and a Bachelor’s degree from Sahand University of Technology (2009). His educational background has equipped him with the theoretical knowledge and practical skills necessary for tackling complex challenges in materials research.

Experience

Dr. Shakeri has held several notable positions throughout his career. He is currently engaged as an Assistant Professor in the Department of Magnetic Materials and Nanostructures. Prior to this, he served as a postdoctoral researcher at the same institute and held visiting researcher roles in Germany and France. His diverse experience also includes positions as a lecturer at Faradars Virtual University and as an R&D specialist in a private company, where he applied his scientific expertise in practical settings.

Research Interests

His research interests focus on the synthesis and characterization of advanced materials, particularly in the realm of photocatalysis and nanotechnology. Dr. Shakeri investigates the mechanisms underlying material properties, employing techniques such as density functional theory (DFT) and molecular dynamics simulations to explore the electronic structures and behavior of nanostructures during various processes, including laser irradiation.

Awards

Dr. Shakeri has received several prestigious awards recognizing his contributions to materials science. In 2023, he was honored with the Polish Ministry of Science and Education Scholarship for Outstanding Young Scientists. He also received the PSRS Award from the Polish Synchrotron Radiation Society in 2024 and was named Scientist of the Year by the Institute of Nuclear Physics Polish Academy of Sciences in the same year. His accolades reflect his dedication to excellence in research and teaching.

Publications

Dr. Shakeri has authored and co-authored a number of publications in reputable journals, contributing significantly to the field of materials science. Key publications include:

Shakeri, M.S. et al. “Effect of hydroxyapatite coating on corrosion behavior and nickel release of NiTi shape memory alloy,” Materials and Corrosion, 2014. DOI: 10.1002/maco.201206950.

Maleki-Ghaleh, H., Shakeri, M.S. “Electrochemical and cellular behavior of ultrafine-grained titanium in vitro,” Materials Science and Engineering C, 2014. DOI: 10.1016/j.msec.2014.03.001.

Shakeri, M.S. et al. “Influence of Fe3O4 Nanoparticles in Hydroxyapatite Scaffolds on Proliferation of Primary Human Fibroblast Cells,” Journal of Materials Engineering and Performance, 2016. DOI: 10.1007/s11665-016-2086-4.

Delbari, S.A., Shakeri, M.S. et al. “Characterization of TiC ceramics with SiC and/or WC additives,” Journal of the Taiwan Institute of Chemical Engineers, 2021. DOI: 10.1016/j.jtice.2021.05.039.

Yu, H., Shakeri, M.S. et al. “HRTEM study and mechanical properties of ZrB2–SiC composite,” International Journal of Refractory Metals and Hard Materials, 2022. DOI: 10.1016/j.ijrmhm.2022.105789.

His work has been well-cited in the scientific community, underscoring his impact on the field.

Conclusion

In summary, Dr. Mohammad Sadegh Shakeri is a dedicated researcher and educator whose contributions to materials science are noteworthy. His extensive background in materials engineering, combined with a focus on innovative research and collaboration, positions him as a leading figure in the study of magnetic materials and nanostructures. Through his teaching and research, he continues to inspire future generations of scientists and advance the understanding of complex materials systems.

SunJae Yoo | Concrete Structure | Best Scholar Award

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Dr SunJae Yoo | Concrete Structure | Best Scholar Award

Postdoctoral Researcher, Korea University, South Korea

Dr. Yoo Sun-Jae is a dedicated researcher specializing in advanced materials and structural engineering, particularly focusing on carbon fiber-reinforced polymer (CFRP) bars, ultra-high-performance fiber-reinforced concrete (UHPFRC), and fire-resistant concrete structures. With a Ph.D. from Korea University, his work explores bonding behaviors, impact resistance, and fire-damaged concrete rehabilitation. Dr. Yoo has contributed significantly to the development of lightweight high-strength concrete using nanotechnology and innovative shelter-in-place (SIP) infrastructure. His research combines experimental and analytical approaches to advance sustainable and resilient construction technologies. Recognized for his excellence, he has received awards such as the Best Poster Award from the Korean Society of Civil Engineers and the Best Paper Award from the Journal of the Korean Society of Hazard Mitigation. Dr. Yoo is also an active contributor to international conferences and holds patents for concrete reinforcement technologies.

Professional Profile

Google Scholar

Education πŸŽ“

Dr. Yoo Sun-Jae earned his Bachelor’s (2019), Master’s (2021), and Ph.D. (2025) in Civil Engineering from Korea University, Seoul, Republic of Korea. His Ph.D. dissertation focused on the bond performance of ribbed CFRP bars in UHPFRC after exposure to elevated temperatures, achieving a GPA of 4.23/4.50. During his Master’s, he investigated strengthening methods for two-way slabs under low-velocity impact loading, graduating with a GPA of 3.85/4.50. His academic journey reflects a strong foundation in structural engineering, reinforced by his advisor, Professor Young Soo Yoon. Dr. Yoo’s education has equipped him with expertise in advanced materials, concrete behavior, and innovative construction techniques.

Experience πŸ”§

Dr. Yoo Sun-Jae has extensive research experience, including projects funded by the National Research Foundation of Korea (NRF) and the Korea Agency for Infrastructure Technology Advancement. His work spans the development of smart strengthening techniques for fire-damaged concrete structures, CFRP reinforcements with zero corrosion, and lightweight high-strength concrete using nanotechnology. He has also contributed to the development of SIP infrastructure and DfMA-based modules for curved bridges. Dr. Yoo’s hands-on experience includes experimental analysis, material development, and structural optimization, making him a versatile researcher in civil engineering and construction materials.

Awards and Honors πŸ†

Dr. Yoo Sun-Jae has been recognized for his outstanding contributions to civil engineering. In 2023, he received the Best Poster Award from the Korean Society of Civil Engineers. Earlier, in 2021, he was honored with the Best Paper Award from the Journal of the Korean Society of Hazard Mitigation. His academic excellence was acknowledged in 2018 with the Academic Achievement Excellence Award from Korea University. These accolades highlight his dedication to advancing research in structural engineering and innovative construction materials.

Research Focus πŸ”

Dr. Yoo Sun-Jae’s research focuses on the bonding behavior of CFRP bars in UHPFRC, particularly under elevated temperatures and fire conditions. He investigates the impact resistance, fire resistance, and development length of concrete structures reinforced with advanced materials. His work also includes the development of lightweight high-strength concrete using carbon nanotubes (CNTs) and the optimization of SIP infrastructure. Dr. Yoo’s research integrates experimental and analytical approaches to enhance the durability, safety, and sustainability of modern construction materials and techniques.

Publication Top Notes πŸ“š

  1. Flexural behavior of ribbed CFRP bars in UHPFRC beams with lap-splice connection.
  2. Degradation of flexural bond of CFRP bar in UHPFRC after exposure to elevated temperature.
  3. Reinforcing effect of CNT on the microstructure and creep properties of high-strength lightweight concrete.
  4. Flexural bond behavior and development length of ribbed CFRP bars in UHPFRC.
  5. Structural benefits of using carbon nanotube reinforced high-strength lightweight concrete beams.
  6. Bonding behavior and prediction of helically ribbed CFRP bar embedded in UHPC.
  7. Comparative bond-slip response of ribbed CFRP bar to UHPC after exposure to high temperature.
  8. Evaluation of residual bond behavior of CFRP and steel bars embedded in UHPC after elevated temperature.
  9. Effect of design code and evacuation information on strategic location of SIP in light rail stations.
  10. Effect of strengthening methods on two-way slab under low-velocity impact loading.
  11. Effect of internal curing on shrinkage and creep of self-compacting lightweight concrete.
  12. Post-heating flexural performance of UHPFRC members reinforced with ribbed CFRP bar.
  13. Influence of elevated temperature on the flexural behavior of spliced CFRP bars in UHPFRC beams.

Conclusion 🌟

Dr. Yoo Sun-Jae is a highly accomplished researcher whose work in CFRP bars, UHPFRC, and fire-resistant concrete structures has significantly advanced the field of civil engineering. His innovative approaches to material development and structural optimization have earned him numerous accolades and patents. Through his research, Dr. Yoo continues to contribute to the development of sustainable, resilient, and high-performance construction technologies, ensuring safer and more durable infrastructure for the future.

Xuemei Wei | Materials Science and Engineering | Best Paper Award

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Dr Xuemei Wei | Materials Science and Engineering | Best Paper Award







Assistant Researcher, Shaoxing University, China


Dr. Xuemei Wei is an accomplished researcher specializing in metal-organic chemistry and catalysis. She holds a Ph.D. in Physical Chemistry from the Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences. Her expertise lies in the development of nano-catalytic materials for environmental and energy applications. With over 12 SCI publications in high-impact journals, she has made significant contributions to catalyst design and chemical transformations. Currently, she serves as an Assistant Researcher at Shaoxing University, where she advances research in pharmaceutical and chemical sciences. Her work integrates innovative nanomaterials to address environmental challenges and sustainable energy solutions.


PROFESSIONAL PROFILE


Scopus


EDUCATION


πŸŽ“ Ph.D. in Physical Chemistry – Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences (2018-2021)
πŸ“ Thesis: Design and Mechanism of Efficient Carbonylation Catalysts under Ambient Conditions.
πŸŽ“ M.Sc. in Inorganic Chemistry – Inner Mongolia University (2013-2016)
πŸŽ“ B.Sc. in Chemistry – Jilin Normal University (2009-2013)


PROFESSIONAL EXPERIENCE


πŸ”¬ Assistant Researcher – Shaoxing University, College of Chemistry and Chemical Engineering (2021-Present)
πŸ” Focus: Development of nano-catalytic materials for industrial and environmental applications.
πŸ§ͺ R&D Specialist – Changchun Zhongke Haorong New Materials Research Co., Ltd. (2016-2018)
πŸš€ Developed and optimized catalytic materials for large-scale industrial use.


AWARDS & HONORS


πŸ† Recognized for research contributions in metal-organic chemistry.
πŸ“œ Multiple SCI-indexed publications in top-tier journals.
🌍 Acknowledged for innovative approaches in environmental catalysis.


RESEARCH FOCUS


πŸ§ͺ Catalysis Under Ambient Conditions: Development of carbonylation catalysts for industrial applications.
🌱 Environmental Nanomaterials: Engineering nanomaterials for pollutant degradation and remediation.
⚑ Sustainable Energy Catalysis: Exploring hydrodeoxygenation reactions for green chemistry solutions.


PUBLICATION TOP NOTES


πŸ“„ Turning on Ambient Conditions Hydrodeoxygenation of Biobased Aromatic Alcohols – Energy Conversion and Management (2025)
πŸ“„ Construction of MXene-loaded Nanoscale Zero-Valent Iron for ReO4-/TcO4- Sequestration – Separation and Purification Technology (2024)
πŸ“„ Deciphering the Facet-Dependent Scavenging Potential of Ξ±-Fe2O3 Nanocrystals – Applied Surface Science (2024)
πŸ“„ Crucial Size Effect on Dicarbonylation of Acetylene Over Pd/CsHPMo Catalysts – Dalton Transactions (2024)
πŸ“„ Targeting Phosphodiesterase 4 as a Therapeutic Strategy for Cognitive Improvement – Bioorganic Chemistry (2023)
πŸ“„ Vesicular BiVO4 Nanostructures Modified by g-C3N4 Quantum Dots – Materials Science in Semiconductor Processing (2024)
πŸ“„ Synergistic Effect of Hematite Facet and Pd Nanocluster for Acetylene Dicarbonylation – Molecular Catalysis (2021)
πŸ“„ Strong Metal-Support Interactions Between Palladium Nanoclusters and Hematite – New Journal of Chemistry (2020)
πŸ“„ Highly Efficient Selective Dicarbonylation of Acetylene Catalyzed by Palladium Nanosheets – New Journal of Chemistry (2020)
πŸ“„ Catalyst in Acetylene Carbonylation: From Homogeneous to Heterogeneous – Progress in Chemistry (2020)
πŸ“„ Advances in Research on Structure-Activity Relationship in Hydrogenation Catalysts – Chemical Industry and Engineering Progress (2020)
πŸ“„ Support Morphology-Dependent Catalytic Activity of Co/CeO2 for Phenol Hydrogenation – New Journal of Chemistry (2020)


CONCLUSION


Dr. Xuemei Wei is a leading researcher in catalysis and nanomaterials, making significant strides in environmental and sustainable chemistry. Her contributions to metal-organic chemistry and catalytic performance have earned her recognition in top scientific journals. As an Assistant Researcher at Shaoxing University, she continues to develop innovative solutions for industrial and environmental challenges. πŸš€πŸ”¬





	


	

	






	
	

		


Hang Xu | Mechanical Metamaterials | Best Researcher Award
			

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Assist. Prof. Dr Hang Xu | Mechanical Metamaterials | Best Researcher Award


Assistant Professor, Concordia University, Canada


Dr. Hang Xu is an Assistant Professor in the Department of Mechanical, Industrial, and Aerospace Engineering at Concordia University, Montreal, Canada. With a Ph.D. in Mechanical Engineering from McGill University and an MSc in Aircraft Design from Beijing University of Aeronautics and Astronautics, Dr. Xu specializes in mechanical metamaterials, smart structures, and additive manufacturing. His research focuses on developing advanced materials with programmable morphing and motion for aerospace, medical, and robotic applications. Prior to joining Concordia, he held research positions at Imperial College London and Siemens, contributing to innovations in multi-stable structures, soft robotics, and medical devices. Dr. Xu is recognized for his teaching excellence and has received awards for his contributions to research during the COVID-19 pandemic.


Professional Profile


Orcid


Scopus


Education πŸŽ“


    

  • Doctorate in Mechanical Engineering, McGill University (2013–2018)
    
Supervisor: Damiano Pasini
    • 

  • Master’s Thesis in Aircraft Design, Beijing University of Aeronautics and Astronautics (2011–2013)
    
Supervisor: Yuanming Xu
    • 

  • Bachelor’s in Aircraft Design and Engineering, Shenyang Aerospace University (2007–2011)
    
Supervisor: Weiping Zhang
    • 



Experience πŸ’Ό


    

  • Assistant Professor, Concordia University (2022–Present)
    
Research on functional/smart metamaterials for aerospace, nautical, and medical applications.
    • 

  • Research Associate, Imperial College London (2020–2022)
    
Developed multi-stable structures, soft robots, and medical devices.
    • 

  • Postdoctoral Researcher, McGill University (2018–2020)
    
Worked on thermally actuated deployable mechanisms and additive manufacturing processes.
    • 

  • Internships: Chinese Aircraft Design Institute of Aviation Medicine (2012–2013) and Shenyang Aircraft Design Institute (2010–2011).
    • 



Awards and Honors πŸ†


    

  • Teaching Excellence Award, Concordia University (2023)
    • 

  • Associate Fellowship of the Higher Education Academy (AFHEA), UK (2022)
    • 

  • Excellent Contribution to Research in COVID-19 Pandemic, Imperial College London (2021)
    • 

  • Winner of 3D-Printing Workshop Design Challenge, McGill University (2019)
    • 



Research Focus πŸ”¬


Dr. Xu’s research focuses onΒ mechanical metamaterials,Β smart materials and structures, andΒ additive manufacturing. His work aims to develop materials with programmable morphing and motion for applications inΒ aerospace structures,Β soft robotics,Β medical devices, andΒ composite materials. Key areas include multiscale mechanics, finite element analysis, and the design of multi-stable structures for innovative functionalities.


Publication Top Notes πŸ“š


    

  1. Embedded pressure sensing metamaterials using TPU-graphene composites and additive manufacturing
    2. 

  2. Generalized tessellations of superellipitcal voids in low porosity architected materials for stress mitigation
    3. 

  3. Thermally actuated hierarchical lattices with large linear and rotational expansion
    4. 

  4. Routes to program thermal expansion in three-dimensional lattice metamaterials built from tetrahedral building blocks
    5. 

  5. ABAQUS user subroutine UMAT for elastoplastic nonlinear kinematic hardening material (MrΓ³z model) with anisotropic plasticity
    6. 

  6. Digitally Programmable Architected Materials with Static and Dynamic Reconfiguration
    7. 

  7. Multi-stable meta-materials with programmable reconfigurations for soft robots
    8. 

  8. 3D printed soft metamaterial force sensors for gait monitoring using TPU-graphene composites
    9. 

  9. Overcoming the strength-modulus tradeoff using double network metamaterial lattices
    10. 

  10. Multi-stable architectured materials with high-mobility morphing
    11. 



Conclusion 🌟


Dr. Hang Xu is a leading researcher in mechanical metamaterials and smart structures, with a strong focus on innovative applications in aerospace, robotics, and medical devices. His contributions to teaching, research, and industry collaborations highlight his commitment to advancing materials science and engineering. Through his work, Dr. Xu continues to push the boundaries of programmable materials, paving the way for future technological advancements. πŸš€


 

	


	

	






	
	

		


Jin-fang Peng | Fretting wear | Best Researcher Award
			

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Prof. Dr Jin-fang Peng | Fretting wear | Best Researcher Award


Prof, State Key Laboratory of Rail Transit Vehicle System, China


Prof. Dr. Jin-fang Peng is a distinguished researcher and academician specializing in mechanical engineering, particularly in wear, fatigue, and corrosion of key components in rail transit, aviation, and nuclear power systems. Born in February 1984, he earned his bachelor’s degree in Materials Science and Engineering from Southwest Jiaotong University in 2006. With over a decade of experience, he has contributed significantly to tribology and failure analysis of mechanical components. Dr. Peng has published over 100 papers in renowned journals, includingΒ International Journal of FatigueΒ andΒ Wear, with more than 60 SCI-indexed publications. He has led numerous national and provincial projects, including the JW Project and the National Natural Science Foundation of China. Currently, he serves as a researcher and doctoral supervisor at the State Key Laboratory of Rail Transit Vehicle System, Southwest Jiaotong University, Chengdu, China.


Professional Profile


Scopus


Education πŸŽ“


    

  • 2006: Bachelor’s degree in Materials Science and Engineering, Southwest Jiaotong University, China.
    • 

  • 2016-2017: Visiting Scholar, Argonne National Laboratory, USA, under the National Scholarship Council’s “National Public Senior Research Scholar, Visiting Scholar, Postdoctoral Project.”
    • 

  • Ph.D.: Earned his doctorate in Mechanical Engineering, specializing in tribology and failure analysis of mechanical components.
    • 

  • Postdoctoral Research: Focused on fretting wear, fatigue, and corrosion behavior of materials in rail transit and aviation systems.
    • 

  • Continuous Learning: Actively engaged in advanced research methodologies and collaborative projects with international institutions to enhance his expertise in mechanical engineering and materials science.
    • 



Experience πŸ’Ό


    

  • 2024-Present: Researcher, State Key Laboratory of Rail Transit Vehicle System, Southwest Jiaotong University, focusing on wear, fatigue, and corrosion in rail transit, aviation, and nuclear power systems.
    • 

  • 2018-2024: Associate Researcher, Southwest Jiaotong University, leading projects on service behavior of key components in high-stress environments.
    • 

  • 2016-2017: Visiting Scholar, Argonne National Laboratory, USA, contributing to advanced research in material science and engineering.
    • 

  • 2017-Present: Lecturer and Researcher, Southwest Jiaotong University, teaching tribology and conducting groundbreaking research in mechanical engineering.
    • 

  • Projects: Led over 20 school-enterprise joint projects and participated in 10+ national and provincial projects, including the National Key Research and Development Plan.
    • 



Awards and Honors πŸ†


    

  • Research Excellence Award: Recognized for outstanding contributions to tribology and mechanical engineering research.
    • 

  • National Scholarship Council Award: Awarded for his work as a visiting scholar at Argonne National Laboratory, USA.
    • 

  • High-Impact Publications: Acknowledged for publishing over 100 papers, including 60+ SCI-indexed articles.
    • 

  • H-Index 27: Recognized for high citation impact in Scopus and Web of Science.
    • 

  • Project Leadership: Honored for leading key projects like the JW Project and the National Natural Science Foundation of China.
    • 

  • Professional Recognition: Appointed as a reviewer and editorial member for prestigious journals in mechanical engineering and tribology.
    • 



Research Focus πŸ”


Dr. Peng’s research focuses onΒ fretting wear,Β fretting fatigue, andΒ failure analysisΒ of mechanical components in rail transit, aviation, and nuclear power systems. His work includes:


    

  • Investigating wear and corrosion behavior of materials under extreme conditions.
    • 

  • Developing protective measures to enhance the durability of mechanical components.
    • 

  • Analyzing the failure mechanisms of materials used in high-stress environments.
    • 

  • Exploring advanced surface treatment techniques, such as plasma nitriding and laser surface microtexturing.
    • 

  • Collaborating on national and international projects to improve the performance of materials in critical applications.
    • 

  • Publishing extensively in top-tier journals likeΒ Tribology International,Β Wear, andΒ Engineering Failure Analysis.
    • 



Publication Top Notes πŸ“š


    

  1. Study on shear fatigue damage behavior and evolution of Fe-Pb thin-walled heterogeneous welded material components under hot isostatic pressure
    2. 

  2. Fretting wear behavior of GH2132 superalloy at different temperatures
    3. 

  3. A study on the fretting wear characteristic of Inconel 718 alloys formed by selective laser melting (SLM)
    4. 

  4. Impact and tangential composite fretting wear of Zr-4 alloy tubes under random loading conditions
    5. 

  5. Probing fretting wear behavior of gauge-changeable spline axle under rotational bending loads
    6. 

  6. Composite fretting wear characteristics of EA4T axle steel under radial and tangential loads
    7. 

  7. Fatigue failure behaviour of bolted joining of carbon fibre reinforced polymers to titanium alloy
    8. 

  8. Electrochemically assisted laser surface microtexture preparation and tribological properties research
    9. 

  9. Study on bending fretting fatigue behaviour of 15-5PH stainless steel with different fretting regimes
    10. 

  10. Study on fretting wear behaviour of plasma nitriding layer of 31CrMoV9 steel
    11. 



Conclusion 🌟


Prof. Dr. Jin-fang Peng is a leading figure in mechanical engineering, with a remarkable career dedicated to advancing the understanding of wear, fatigue, and corrosion in critical components. His extensive research, numerous publications, and leadership in national projects have significantly contributed to the fields of tribology and materials science. With a strong academic foundation, international collaborations, and a commitment to innovation, Dr. Peng continues to drive progress in mechanical engineering, ensuring the durability and reliability of materials in high-stress environments. His work not only enhances industrial applications but also inspires future generations of researchers. πŸš€

	


	

	






	
	

		


Enoch Nifise OGUNMUYIWA |  Metallurgy |  Best Researcher Award
			

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ProfΒ Β Enoch Nifise OGUNMUYIWA | Metallurgy |Β Β Best Researcher Award


Associate Professor atΒ Β Botswana International University of Science and Technology , Botswana.


Dr. Enoch Nifise Ogunmuyiwa, PhD, PrEng, is an esteemed Associate Professor in Materials and Metallurgical Engineering at the Botswana International University of Science and Technology (BIUST). With a distinguished career spanning academia, research, and industry collaborations, he specializes in materials science, metallurgy, and sustainable engineering. His expertise extends to corrosion, tribology, and advanced materials synthesis, with a strong commitment to innovation and excellence in engineering education. A prolific researcher with a commendable citation record, Dr. Ogunmuyiwa continues to contribute significantly to the scientific community through publications, mentorship, and industrial projects.


PROFESSIONAL PROFILE


Google Scholar


Orcid


Scopus


EDUCATIONΒ 


Dr. Ogunmuyiwa holds a PhD in Materials and Metallurgical Engineering from the University of the Witwatersrand, South Africa (2013). He earned his MSc (Eng) in the same discipline from the University of the Witwatersrand (2009) and a BEng (Hons) in Metallurgical and Materials Engineering from the Federal University of Technology, Akure, Nigeria (2005). His academic journey is marked by outstanding achievements and multiple scholarships recognizing his academic excellence.


EXPERIENCEΒ 


Dr. Ogunmuyiwa has held various academic and research positions, progressing from a Research Assistant and Postdoctoral Fellow to his current role as an Associate Professor. His global experience includes collaborations with institutions in South Africa, Botswana, and Estonia. He has also worked on industry-related projects, including corrosion and wear assessment for Debswana, equipment integrity evaluation for Botswana Oil Limited, and coin contamination studies for the South African Mint. Beyond academia, he actively engages in mentorship programs, student associations, and engineering outreach initiatives.


AWARDS & HONORS


    

  • Extensive Research Output – With a significant number of journal articles, research collaborations, and industrial projects, Dr. Ogunmuyiwa has a strong research portfolio.
    • 

  • Citations & Impact – Google Scholar (1353 citations, h-index 13), ResearchGate (1146 citations, h-index 11), Scopus (899 citations, h-index 10), and Web of Science (716 citations, h-index 10) demonstrate the influence and reach of his work.
    • 

  • Multidisciplinary Specialization – His expertise spans materials science, metallurgy, tribology, advanced manufacturing, biomaterials, and sustainable engineering, making him a well-rounded researcher.
    • 

  • Industry and Academic Collaboration – His involvement with Debswana, Botswana Oil Limited, and other industrial projects highlights real-world applications of his research.
    • 

  • Research Funding Success – He has secured significant funding from international organizations, demonstrating his ability to lead impactful projects.
    • 

  • Recognition & Awards – Numerous academic excellence awards, best paper awards, and scholarships highlight his outstanding contributions to research.
    • 

  • Mentorship & Community Engagement – He has served as a mentor and advisor to students and professional organizations, contributing to academic growth.
    • 



RESEARCH FOCUS


His research interests encompass materials science, extractive and physical metallurgy, tribology, polymer and composite materials, and sustainable engineering. He has pioneered studies on corrosion-resistant materials, green corrosion inhibitors, rare earth extraction, and biomaterials for medical applications. His work has received numerous accolades, including Best Paper Awards, Academic Excellence Awards, and research grants from prestigious institutions such as the Royal Academy of Science and the National Research Foundation.


PUBLICATION TOP NOTES


    

  1. 

    M.Y. Abdul Salam, E.N. Ogunmuyiwa, V.K. Manisa, A. Yahya, I.A. Badruddin (2025). Effect of fabrication techniques of high entropy alloys: A review with integration of machine learning. Results in Engineering.
    

    2. 

  2. 

    L.K. Ncube, A.U. Ude, E.N. Ogunmuyiwa, I.N. Beas (2024). Characterisation of Bambara groundnut (Vigna subterranea (L.) Verdc.) shell waste as a potential biomass for different bio-based products. Environmental Monitoring and Assessment.
    

    3. 

  3. 

    N. Ntholeng, N.P. Mphasha, I.M.C. Bopape, E.N. Ogunmuyiwa, M.B. Shongwe (2023). Tribological Behavior of Annealed Ni-xFe-yCo Alloys: Effect of Co and Fe Additions. Journal of Tribology.
    

    4. 



This format follows standard academic citation styles, ensuring clarity and professionalism. Let me know if you need a different citation style (APA, IEEE, etc.). πŸ“šβœ¨


CONCLUSION


Dr. Ogunmuyiwa is a highly qualified and competitive candidate for the Best Researcher Award, with a strong academic, industrial, and mentorship record. Addressing the above areas for improvement could further solidify his position as a top contender in future awards.

	


	

	






	
	

		


Vedrine Louis | Damage Mechanics | Best Paper Award
			

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Mr Vedrine Louis | Damage Mechanics | Best Paper Award


Ens Paris Saclay, France


Louis VΓ©drine is a dedicated researcher specializing in mechanics and material science, with a focus on snow and avalanche dynamics. Currently pursuing a PhD at the Centre d’Étude de la Neige/CNRM in Saint Martin d’HΓ¨res, France, Louis investigates the micro-scale mechanisms behind snow’s elasto-viscoplastic behavior. His academic journey includes a Master’s degree in Civil Engineering and extensive research experience at institutions like MΓ©tΓ©o France, EPFL, and ENS Paris-Saclay. Louis combines numerical modeling, experimental analysis, and fieldwork to address challenges in climate risks, structural safety, and natural hazard prevention. His work bridges theoretical research and practical applications, contributing to advancements in snow science and avalanche safety.


Professional Profile


Orcid








Education πŸŽ“


Louis VΓ©drine holds a Master’s degree in Civil Engineering, with a focus on mechanics and material science. He is currently pursuing a PhD at the Centre d’Étude de la Neige/CNRM, where he studies the micro-scale mechanisms of snow’s elasto-viscoplastic behavior. His academic journey includes advanced studies at ENS Paris-Saclay and EPFL, where he developed expertise in numerical modeling, structural analysis, and natural hazard prevention. Louis’s education emphasizes interdisciplinary research, combining physics, engineering, and environmental science to address complex challenges in snow mechanics and avalanche dynamics.


Experience πŸ’Ό


Louis VΓ©drine has a diverse research background, including roles at MΓ©tΓ©o France, EPFL, and ENS Paris-Saclay. His PhD focuses on snow mechanics, while previous projects include improving snowpack models, studying avalanche dynamics, and developing tools for hydrogeological analysis. At EPFL, he researched the protective role of forests against avalanches, and at MΓ©tΓ©o France, he enhanced climate risk models. Louis also contributed to urban microclimate modeling at AREP and taught numerical methods at ENS Paris-Saclay. His work spans experimental, numerical, and field-based research, showcasing his versatility in addressing real-world challenges.


 


Research Focus πŸ”¬


Louis VΓ©drine’s research focuses on understanding the mechanical behavior of snow and its implications for avalanche dynamics and climate risks. His PhD investigates the micro-scale mechanisms behind snow’s elasto-viscoplasticity, combining experimental and numerical approaches. He also studies the interaction between avalanches and forests, aiming to improve natural hazard prevention. Additionally, Louis has contributed to structural safety research, exploring non-local damage models and size effects in materials. His interdisciplinary work bridges material science, environmental engineering, and natural hazard mitigation.


Publication Top Notes πŸ“š


    

  1. Calibration of non-local damage models from full-field measurements: Application to discrete element fields
    2. 

  2. Follow-up at the small scale during snow deformation. Microstructure evolution and local heterogeneities at various strain-rates.
    3. 

  3. Role of Ice Mechanics on Snow Viscoplasticity
    4. 

  4. Detrainment and braking of snow avalanches interacting with forests
    5. 

  5. Detrainment and braking of small to medium snow avalanches interacting with forests.
    6. 

  6. Detrainment and braking of snow avalanches interacting with forests
    7. 



Conclusion 🌟


Louis VΓ©drine is a passionate researcher whose work in snow mechanics and avalanche dynamics has significant implications for climate risk mitigation and natural hazard prevention. His interdisciplinary approach, combining experimental, numerical, and field-based research, highlights his commitment to advancing scientific understanding and practical solutions. Through his PhD and collaborative projects, Louis continues to contribute to the fields of material science, environmental engineering, and natural hazard management, making a lasting impact on both academia and society.





















	


	

	






	
	

		


Zihao Xing | Material Chemistry | Best Researcher Award
			

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Assoc. Prof. Dr Zihao Xing | Material Chemistry | Best Researcher Award


Associate Professor, Northeast Normal University, China


Zihao Xing is an Associate Professor at the College of Chemistry, Northeast Normal University, China. His expertise spans electrocatalysis, fuel cells, and heterogeneous catalysis. He earned his Ph.D. in Physical Chemistry from Jilin University, where he developed innovative hydrogen energy conversion catalysts. As a postdoctoral researcher at Shenzhen University and a visiting scientist at TU Ilmenau, he worked on advanced electrocatalytic structures for energy applications. His research contributions have been widely recognized in high-impact journals, focusing on nanomaterials for sustainable energy. With numerous highly cited publications, he has significantly advanced oxygen reduction reaction (ORR) and battery electrocatalysis. His pioneering work in graphdiyne-based catalysts and metal-nanostructured materials has been instrumental in enhancing fuel cell efficiency. Xing’s research excellence has earned him recognition in the scientific community, further solidifying his role as a leading researcher in physical chemistry and sustainable energy materials.


PROFESSIONAL PROFILE


Google Scholar


Orcid


Scopus


STRENGTHS FOR THE AWARD


Zihao Xing demonstrates exceptional expertise in electrocatalysis, energy conversion materials, and fuel cells, with significant contributions to developing high-performance catalysts for sustainable energy applications. His extensive publication record, including works in Advanced Materials, Chemical Engineering Journal, and Nano Research, showcases his impact in the field, with high citation counts reflecting the recognition of his research by the scientific community. His international research experience, including collaborations with institutions in Germany and China, further strengthens his profile. Additionally, his work on nanostructured materials and electrocatalysis for energy applications highlights his innovative approach to solving critical challenges in energy storage and conversion.


AREAS FOR IMPROVEMENT


While Zihao Xing has an impressive research portfolio, expanding his leadership in large-scale funded projects and increasing collaborations with industry partners could further solidify his impact. Enhancing visibility through keynote speeches at international conferences and involvement in editorial or review boards of high-impact journals would also add to his recognition. Additionally, focusing on translating research into practical applications, such as patents or industrial partnerships, could strengthen his case for the Best Researcher Award.


EDUCATION


πŸŽ“ Ph.D. in Physical Chemistry (2013-2019) – Jilin University, China


    

  • Thesis: Rational Design and Activity Regulation of Hydrogen Energy Conversion Catalysts
    • 

  • Supervisor: Prof. Wensheng Yang
    • 

  • Exchange Student: State Key Laboratory of Organic Solids, ICCAS, Beijing
    • 



πŸŽ“ M.Sc. in Physical Chemistry (2013-2019) – Jilin University, China


    

  • Thesis: Structure Design of Nanostructured Graphdiyne Electrocatalysts
    • 



πŸŽ“ B.Sc. in Applied Chemistry (2009-2013) – Jilin University, China


    

  • Thesis: Synthesis of Precious Metal Nanoparticles and Carbon-Based Nanostructures
    • 



EXPERIENCE


πŸ‘¨β€πŸ« Associate Professor (2022-Present) – College of Chemistry, Northeast Normal University, China


    

  • Leading research in hydrogen-electric energy conversion catalysts
    • 



πŸ”¬ Postdoctoral Researcher (2019-2021) – Shenzhen University, China


    

  • Focused on designing highly active electrocatalysts for batteries
    • 

  • Supervisor: Prof. Chenliang Su
    • 



🌍 Visiting Scientist (2019-2021) – TU Ilmenau, Germany


    

  • Specialized in applied nanophysics and electrocatalysis
    • 

  • Supervisor: Prof. Yong Lei
    • 



AWARDS & HONORS


πŸ† Highly Cited Researcher Recognition – Multiple publications in high-impact journals

πŸ† Outstanding Young Scientist Award – Recognized for contributions to electrocatalysis

πŸ† Best Research Paper Award – Acknowledged for groundbreaking work in Zn-air batteries

πŸ† Postdoctoral Fellowship – Shenzhen University, China

πŸ† Academic Excellence Scholarship – Jilin University

πŸ† Visiting Scientist Grant – TU Ilmenau, Germany


RESEARCH FOCUS


πŸ”¬ Electrocatalysis & Energy Materials – Development of high-performance catalysts for fuel cells and batteries

⚑ Oxygen Reduction Reaction (ORR) & Hydrogen Evolution – Enhancing efficiency in sustainable energy conversion

πŸ§ͺ Nanostructured Materials – Engineering carbon-based and metal nanostructures for advanced applications

🌍 Graphdiyne-Based Catalysts – Designing novel materials for green energy solutions

πŸ”‹ Fuel Cells & Metal-Air Batteries – Improving performance and durability of energy storage devices


PUBLICATION TOP NOTES


πŸ“„ Preferentially Engineering FeN4 Edge Sites onto Graphitic Nanosheets for Highly Active and Durable Oxygen Electrocatalysis in Rechargeable Zn–Air Batteries

πŸ“„ Sensitive Colorimetric Sensor for Point-of-Care Detection of Acetylcholinesterase Using Cobalt Oxyhydroxide Nanoflakes

πŸ“„ Self-Templating Construction of N, P-Co-Doped Carbon Nanosheets for Efficient Electrocatalytic Oxygen Reduction Reaction

πŸ“„ Stabilizing Single-Atomic Ruthenium by Ferrous Ion Doped NiFe-LDH Towards Highly Efficient and Sustained Water Oxidation

πŸ“„ Structure Engineering of PtCu3/C Catalyst from Disordered to Ordered Intermetallic Compound with Heat-Treatment for the Methanol Electrooxidation Reaction

πŸ“„ Optimizing the Activity of Pd-Based Catalysts Towards Room-Temperature Formic Acid Decomposition by Au Alloying

πŸ“„ Effect of Pt Cocatalyst on Visible Light Driven Hydrogen Evolution of Anthracene-Based Zirconium Metal-Organic Framework

πŸ“„ Colloidal Silica Assisted Fabrication of N, O, S-Tridoped Porous Carbon Nanosheets with Excellent Oxygen Reduction Performance

πŸ“„ Boosting the Methanol Oxidation Reaction Activity of Pt–Ru Clusters via Resonance Energy Transfer

πŸ“„ Bovine Serum Albumin Assisted Preparation of Ultra-Stable Gold Nanoflowers and Their Selective Raman Response to Charged Dyes

πŸ“„ Nanocomposite: Keggin-Type Co4-Polyoxometalate@Cobalt-Porphyrin Linked Graphdiyne for Hydrogen Evolution in Seawater

πŸ“„ Weak Interaction Between Cations and Anions in Electrolyte Enabling Fast Dual‐Ion Storage for Potassium‐Ion Hybrid Capacitors

πŸ“„ Hexavalent Iridium Boosts Oxygen Evolution Performance

πŸ“„ Disordered Carbon Structures Enhance Capacitive Storage

πŸ“„ Polyoxometalate as the Assembly Material to Self-Assembled Ni(OH)2 Nanosheets with Electrocatalytic Performance

πŸ“„ Ligand Engineering of Co-MOF-74 with Hexaaminotriphenylene for Enhanced Oxygen Reduction Reaction in Zinc-Air Batteries

πŸ“„ Rational Design of Amino-Functionalized Pillar-Layered Co6O6 Cluster MOF for Gas Purification in the MTO Process

πŸ“„ Pyridine-Nitrogen Conjugated Covalent Organic Frameworks for High-Efficiency Gas-Solid Photocatalytic Reduction of CO2 to CO

πŸ“„ Promoting Mechanism of the Ru-Integration Effect in RuCo Bimetallic Nanoparticles for Enhancing Water Splitting Performance

πŸ“„ Sulfur and Nitrogen Dual-Doped Graphdiyne as a Highly Efficient Metal-Free Electrocatalyst for the Zn-Air Battery


CONCLUSION


With a strong foundation in electrocatalysis, nanomaterials, and sustainable energy applications, Zihao Xing is highly suitable for the Best Researcher Award. His high-impact publications, collaborations with leading institutions, and contributions to cutting-edge research make him a strong candidate. By further expanding his leadership roles and industry collaborations, he can reinforce his standing as a leading researcher in the field.