Zeinab Gasavi Nezhad | Biomechanics | Best Researcher Award

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Dr. Zeinab Gasavi Nezhad | Biomechanics| Best Researcher Award

Teaching Assistant | University of Social Welfare and Rehabilitation Sciences | Iran

Zeinab Gasavi Nezhad is an early-career researcher and clinician specializing in orthotics, prosthetics, and rehabilitation sciences. She holds B.Sc. and M.Sc. degrees in Orthotics and Prosthetics from the University of Social Welfare and Rehabilitation Sciences (USWR), where she graduated as the top student of her cohort. Currently, she is pursuing a Ph.D. at USWR while serving as a Teaching Assistant. Her research integrates biomechanics, clinical rehabilitation, and engineering design, with a focus on spinal orthoses for older adults with hyperkyphosis and assistive devices for neurological conditions. She has published systematic reviews, clinical trials, and collaborative studies with engineers and startups, leading to peer-reviewed articles, funded projects, and a patent-pending wearable kyphosis-corrective belt. Alongside her academic pursuits, she provides specialized clinical care to elderly patients and children with cerebral palsy, ensuring her research is grounded in real-world rehabilitation needs. Her career reflects a dedication to bridging clinical practice and innovation.

Professional Profile

Orcid

Education

Zeinab Gasavi Nezhad completed both her B.Sc. and M.Sc. degrees in Orthotics and Prosthetics at the University of Social Welfare and Rehabilitation Sciences (USWR), excelling as the top graduate in her class. During her academic training, she developed strong expertise in biomechanics, gait analysis, orthotic design, and rehabilitation strategies, which laid the foundation for her future research. Her master’s studies emphasized systematic reviews and clinical research in orthotic interventions, particularly targeting postural deformities and gait impairments in older adults. Currently, she is pursuing her Ph.D. at USWR, where her doctoral research investigates advanced orthotic solutions for hyperkyphosis and spinal cord injury rehabilitation. As part of her training, she has led multiple funded projects and collaborated with engineers in the design and testing of innovative assistive devices. Zeinab’s educational path reflects a strong commitment to combining academic excellence with translational research aimed at enhancing rehabilitation practices and clinical care.

Experience

Zeinab Gasavi Nezhad has extensive experience spanning clinical rehabilitation, academic teaching, and applied research. She currently serves as a Teaching Assistant at the University of Social Welfare and Rehabilitation Sciences, supporting undergraduate and graduate-level instruction in orthotics, prosthetics, and rehabilitation technologies. Her research experience includes systematic reviews on hyperkyphosis, spinal cord injury, ankle injuries, and cerebral palsy, several of which have been published in international journals. She has also led clinical trials and prototype testing, most notably on a wearable vibratory-feedback kyphosis-corrective belt, where she served as project lead in collaboration with engineers at Sharif University. Clinically, Zeinab delivers specialized care for older adults with spinal deformities and children with cerebral palsy, ensuring her interventions are evidence-based and patient-centered. She is also engaged in consultancy and innovation projects with startups, translating research outcomes into practical rehabilitation devices. This diverse experience has strengthened her role as both a clinician and academic innovator.

Research Focus

Zeinab Gasavi Nezhad’s research lies at the intersection of biomechanics, orthotic innovation, and rehabilitation sciences. Her primary focus is on posture and gait in older adults with hyperkyphosis, where she has conducted award-nominated systematic reviews and clinical studies on spinal orthoses, gait parameters, balance, and fall risk. She also explores assistive device innovation for neurological conditions such as spinal cord injury and cerebral palsy, integrating engineering design with clinical evaluation to create novel solutions. Her ongoing Ph.D. research investigates advanced orthoses for spinal cord injury rehabilitation, including reciprocating hip-knee designs. In parallel, she has contributed to systematic reviews and trials on ankle injuries, postural stability, and orthotic interventions in athletes. Zeinab emphasizes translational research by leading collaborations with engineers and startups to develop prototypes like the wearable kyphosis-corrective belt, now under patent review. Overall, her research advances evidence-based, patient-centered innovations in orthotics and rehabilitation practice.

Awards and Honors

Throughout her academic and professional journey, Zeinab Gasavi Nezhad has received recognition for her academic excellence, research achievements, and innovative contributions. At the University of Social Welfare and Rehabilitation Sciences (USWR), she was recognized as an Exceptional Talent, a distinction granted to high-achieving students. Her systematic review on gait impairment in older adults with hyperkyphosis was nominated for a research award, highlighting her contribution to evidence-based rehabilitation. Zeinab is also an active member of the Iranian Orthotics and Prosthetics Association and the Research and Technology Committee at USWR, reflecting her leadership in academic and professional communities. She has presented her work at scientific congresses and actively contributed to collaborative projects bridging engineering and clinical sciences. Additionally, her work on the vibratory-feedback kyphosis-corrective belt has led to a patent application, further demonstrating her innovative capacity. These achievements underscore her dual commitment to advancing rehabilitation science and improving patient care outcomes.

Publication Top Notes

Conclusion

Zeinab Gasavi Nezhad demonstrates potential as a researcher in orthotics and prosthetics, with a strong academic background and research focus. Her multidisciplinary collaborations and clinical expertise are notable, and her research has the potential to make a significant impact in the field of rehabilitation sciences. With further development of her publication record and citation impact, she could become a strong candidate for the Best Researcher Award. Her contributions to the field, including her award-nominated systematic reviews and patent-pending vibratory kyphosis corrective belt, demonstrate her commitment to advancing the field and improving patient outcomes.

Seongwoo Lee | Numerical Analysis | Best Researcher Award

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Mr. Seongwoo Lee | Numerical Analysis | Best Researcher Award

Ph.D candidate | Gyeongsang National University | South Korea

Mr. Seongwoo Lee, a dedicated mechanical engineer and emerging researcher, specializes in numerical analysis, applied fluid mechanics, and mechanical systems. Currently a Ph.D. candidate in the Department of Mechanical System Engineering at Gyeongsang National University, Mr. Seongwoo Lee has cultivated a strong foundation in engineering principles, computational simulation, and experimental methods. His academic journey reflects a deep commitment to advancing energy systems and fluid dynamics applications, with a particular focus on cryogenic machinery and heat transfer phenomena, he worked as a Student Researcher at the LNG Cryogenic Machinery Technology Certification Center of the Korea Institute of Machinery & Materials (KIMM), contributing to national-level projects aimed at optimizing LNG systems for improved efficiency and safety. His research includes the numerical analysis of heat transfer in double-pipe heat exchangers for LPG fuel supply systems, a study published in the peer-reviewed journal Energies.

Professional Profile

Education

Mr. Seongwoo Lee’s academic path in mechanical engineering demonstrates consistent growth in technical expertise and research capability. He earned his Bachelor of Science degree in February from the Department of Mechanical System Engineering at Gyeongsang National University, where he gained a solid grounding in mechanical design, thermodynamics, and computational tools. His undergraduate experience involved hands-on laboratory work, team-based design projects, and foundational training in mechanical systems analysis. Building on this foundation, he pursued a Master of Science degree in the same department, completing it in February. During his master’s program, he engaged in research on applied fluid mechanics and heat transfer systems, with an emphasis on simulation-based optimization. This period strengthened his computational skills and introduced him to numerical modeling techniques essential for engineering analysis.

Experience

From September, Mr. Seongwoo Lee served as a Student Researcher at the LNG Cryogenic Machinery Technology Certification Center under the Korea Institute of Machinery & Materials (KIMM). In this role, he participated in research and development projects aimed at improving the design, safety, and efficiency of LNG-related mechanical systems. His responsibilities included conducting numerical simulations of thermal and fluid flow processes, validating computational models with experimental data, and assisting in the preparation of technical reports for industry and government stakeholders. Working in a specialized cryogenic machinery environment, he gained experience with advanced engineering software, instrumentation for performance testing, and applied methodologies for system reliability assessment. This role also provided valuable exposure to multidisciplinary collaboration, as projects often involved working alongside senior engineers, materials scientists, and industry partners. Before joining KIMM, his academic research as a master’s student included work on heat exchanger optimization for LPG fuel supply systems, which formed the basis for his first peer-reviewed publication. This blend of academic rigor and applied research experience has equipped him with the skills necessary to tackle complex mechanical system challenges, from initial concept design to performance evaluation and practical implementation in industrial settings.

Research Focus

Mr. Seongwoo Lee’s research centers on numerical analysis, applied fluid mechanics, and mechanical systems, with a strong emphasis on the energy sector. He is particularly interested in the thermal and flow behavior of heat exchangers, cryogenic machinery performance, and fuel supply system optimization. His doctoral work focuses on integrating computational fluid dynamics (CFD) with experimental validation to design energy systems that are both efficient and reliable. In applied fluid mechanics, he investigates flow distribution, turbulence modeling, and heat transfer enhancement techniques, aiming to develop solutions that improve system performance while minimizing energy losses. His research also examines LNG and LPG systems, where cryogenic conditions present unique engineering challenges, including material selection, thermal stress management, and safety considerations. The combination of simulation-driven design and experimental assessment allows him to create engineering models with high predictive accuracy, directly applicable to industrial contexts. His approach bridges the gap between theoretical modeling and operational practicality, ensuring that innovations are not only technically sound but also economically viable.

Awards and Honors

While still early in his career, Mr. Seongwoo Lee has already earned recognition for his research contributions and academic excellence in mechanical engineering. His peer-reviewed publication in the journal Energies stands as a testament to the quality and relevance of his research, highlighting the numerical analysis of heat transfer in double-pipe heat exchangers for LPG fuel supply systems. This work demonstrated both scientific rigor and industrial applicability, earning positive recognition within his academic community. During his graduate studies at Gyeongsang National University, he consistently achieved high academic performance, leading to faculty commendations for his dedication and precision in engineering analysis. His role as a Student Researcher at KIMM also resulted in strong professional endorsements, as he contributed meaningfully to projects critical to LNG system safety and efficiency. He has presented research findings in academic seminars and internal industry meetings, where his ability to communicate complex technical details clearly has been well received. Although formal award records are still in progress, his early career achievements lay the foundation for future honors in engineering research and innovation. His growing expertise positions him as a strong candidate for competitive research grants, industry awards, and academic distinctions in the years ahead.

Publication Top Notes

Statistical properties of sampled networks

Cited By: 710

Year: 2006

Detection of Core-Periphery Structure in Networks Using Spectral Methods and Geodesic Paths

Cited By: 113

Year: 2016

Detection of Core-Periphery Structure in Networks Using Spectral Methods and Geodesic Paths

Cited By: 73

Year: 2016

Mesoscale analyses of fungal networks as an approach for quantifying phenotypic traits

Cited By: 103

Year: 2020

Conclusion

The researcher has a strong academic background and research experience, and their publication demonstrates their ability to conduct research and communicate their findings. While there are areas for improvement, the researcher’s potential and current achievements make them a suitable candidate for the Best Researcher Award. With continued research and publication efforts, the researcher has the potential to make significant contributions to their field.

Prof. Dr. Sylvain Guillou | Turbulence | Excellence in Research

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Prof. Dr. Sylvain Guillou | Turbulence | Excellence in Research

Full Professor, University of Caen Normandy, France

🌟 Sylvain S. Guillou is a renowned Full Professor of Fluid Mechanics at the University of Caen Normandy, France. As the Director of the Applied Science Laboratory LUSAC, he has established himself as a leading expert in fluid mechanics, marine renewable energy, turbulence, and sediment transport. With extensive experience in teaching and research, Guillou has supervised numerous research projects and published over 88 articles in peer-reviewed journals. His dedication to advancing knowledge in his field has earned him recognition within the scientific community ¹ ².

Profile

scholar

🎓 Education

🎓 Guillou’s academic background is rooted in fluid mechanics and applied mathematics. He holds ³:- Ph.D. in Applied Mathematics: Accreditation to advise research in fluid mechanics, University of Caen (2005)- (link unavailable) in Dynamics of Fluids and Transfers: Ecole Centrale de Nantes (1996)- (link unavailable) in Mechanical Engineering: University of Le Havre (1991)

👨‍🔬 Experience

Guillou’s professional experience spans over two decades ² ¹:- *Full Professor*: ESIX, University of Caen Normandy (2017-present)- *Associate Professor*: ESIX, University of Caen-Lower Normandy (2005-2017)- *Assistant Professor*: ESIX, University of Caen-Lower Normandy (1999-2005)- *Lecturer*: EIC, University of Caen-Lower-Normandy (1997-1999)- *Post-doctoral Researcher*: University of Caen (1996-1997)

🔍 Research Interest

– *Fluid Mechanics*: Turbulence, sediment transport, and computational fluid dynamics- *Marine Renewable Energy*: Tidal turbines and coastal/estuarine flows- *Environmental Flows*: Complex fluid flows in pipes and environmental media

Awards and Honors

🏆 Guillou’s contributions to science have been recognized through various editorial and organizational roles:- *Associate Editor*: International Journal of Water La Houille Blanche, Energies, and special issues in esteemed journals- *Organizer*: International conferences, including the 6th International Conference on Estuaries and Coasts (ICEC-2018) and the Sino-French forum on Water Sciences (SFFWS-2015)

📚 Publications 

– Articles in peer-reviewed journals, including International Journal for Numerical Method in Fluids and Journal of Non-Newtonian Fluid Mechanics
– 2 scientific books, 4 book directions, and 5 book chapters
– Research on tidal turbines, estuaries, and coastal zones

Conclusion

Sylvain S. Guillou’s impressive research record, leadership roles, and editorial activities make him an excellent candidate for the Best Researcher Award. His contributions to fluid mechanics, marine renewable energy, and sediment transport have significantly advanced our understanding of these fields. With some potential for interdisciplinary collaborations and exploring emerging topics, Guillou is well-suited to receive this award.

Chang Hyun Sohn | Computational Fluid Dynamic | Best Researcher Award

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Prof Chang Hyun Sohn | Computational Fluid Dynamic | Best Researcher Award

Professor, Kyungpook National University, South Korea

Dr. Chang-Hyun Sohn is a distinguished Professor of Mechanical Engineering at Kyungpook National University (KNU), South Korea. 🎓 With expertise in Computational Fluid Dynamics (CFD), Flow-Induced Vibration, and Particle Image Velocimetry (PIV), he has made significant contributions to thermal-fluid sciences. 🌊 He has served as a Visiting Professor at the University of Cambridge and the University of Tennessee and previously worked at the Agency for Defense Development (ADD), contributing to small jet engine development. ✈️ His extensive research output includes 134 journal papers, 64 conference proceedings, 37 books & reports, and 5 patents. 📚 Recognized with prestigious awards, he has held leadership roles in KSME, KASE, and KSCFE. 🔬 His influence spans academia, industry, and engineering societies, making him a pioneer in fluid dynamics research. 🌍

Profile

scholar

Education 🎓

Ph.D. in Mechanical Engineering, KAIST, South Korea (1991) 🏆 Focused on thermal-fluid flow and CFD modeling, advancing numerical simulations in fluid dynamics. 💡M.E. in Mechanical Engineering, KAIST, South Korea (1985) 📊 Specialized in computational modeling and flow analysis, contributing to advanced engineering applications. 🚀B.E. in Mechanical Engineering, Kyungpook National University, South Korea (1983) 🔧 Developed a strong foundation in mechanical systems, thermodynamics, and aerodynamics, shaping future research in flow dynamics. 🌪️

Professional Experience 🏢

Professor, Kyungpook National University (1994 – Present) 👨‍🏫 Leading fluid dynamics research and mentoring future engineers. 🎯Team Manager, Agency for Defense Development (ADD) (1991 – 1994) 🛩️ Spearheaded small jet engine development and military propulsion technology. 💨Visiting Professor, University of Cambridge (1996 – 1997) 🇬🇧 Collaborated on aerodynamic research in turbulence and flow modeling. 📈Visiting Professor, University of Tennessee (2005 – 2006) 🇺🇸 Advanced CFD applications in thermal-fluid sciences. 🔥Vice Dean, College of Engineering, KNU (2007 – 2008) 📌 Strengthened academic programs in mechanical and automotive engineering. 🏗️Director, Industrial-University Consortium Center (2007 – 2008) 🔄 Enhanced industry-academic collaboration for applied mechanical research. 🏭

Awards & Honors 🏆

Outstanding Paper Award, Korean Society for Computational Fluid Engineering (2010) 📜 Recognized for excellence in CFD-based thermal-fluid research. 🔥Best Paper Award, Korean Society of Mechanical Engineers (2010) ✨ Acknowledged for groundbreaking contributions to mechanical engineering innovations. 🚗Advisor of Winning Team, National Fluid Engineering Competition (2010) 🏅 Mentored students in a national-level fluid mechanics challenge. 🎯Outstanding Portfolio Instructor, KNU (2010) 👏 Honored for exceptional teaching in mechanical and aerospace engineering. 📖Invited Speaker, IBCAST (2016) & FMFP (2017) 🎤 Shared insights on fluid mechanics, CFD, and turbulence modeling in global conferences. 🌎

Research Focus 🔬

Computational Fluid Dynamics (CFD) 🖥️ Developing high-precision simulations for thermal-fluid flows, aerodynamics, and turbulence modeling. 🌪️Particle Image Velocimetry (PIV) Measurement 📸 Enhancing fluid flow visualization techniques for experimental validation of CFD models. 💡Flow-Induced Vibration (FIV) 🔊 Investigating structural interactions with fluid flow for safer, more efficient engineering systems. 🏗️Aerospace & Automotive Applications 🚀 Designing advanced propulsion systems, aerodynamic vehicles, and jet engines. ✈️Thermal-Fluid System Optimization ⚡ Improving cooling systems, energy efficiency, and industrial heat transfer mechanisms. 🔥

Publications

Investigating the Power Extraction of Applying Hybrid Pitching Motion on a Wing with Leading and Trailing Flaps

Enhanced Power Extraction via Hybrid Pitching Motion in an Oscillating Wing Energy Harvester with Leading Flap

Wetting performance analysis of porosity distribution in NMC111 layered electrodes in lithium-ion batteries using the Lattice Boltzmann Method

Reduction of delivery pressure fluctuations in a gerotor pump

Numerically Investigating the Energy-Harvesting Performance of an Oscillating Flat Plate with Leading and Trailing Flaps

Conclusion

Dr. Chang-Hyun Sohn is an outstanding candidate for the Best Researcher Award, given his exceptional contributions to CFD, leadership in mechanical engineering, and innovation in applied research. His strong publication record, international impact, and industry collaborations make him highly suitable for this prestigious recognition. Further engagement in cutting-edge fields like AI-enhanced CFD and sustainability applications could further strengthen his position as a global leader in the field.

Prof. Ripeng Jiang | simulation | Best Researcher Award

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Prof. Ripeng Jiang | simulation | Best Researcher Award

Prof. Ripeng Jiang, Cental South University, china

Prof. Ripeng Jiang is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

 

Professional Profiles:

Scopus

Personal Details👨‍🎓

Full Name: Ripeng Jiang
♂️ Gender: Male
🎓 Designation: Associate Professor
🏢 Department: Light Alloy Research Institute
🏛️ Institution/Organization: Central South University
🎓 Qualification: Doctor of Engineering
🔬 Area of Specialization: Casting Processes and Equipment
🔧 Sub Division: Mechanical Engineering
📅 DOB: 1983
📅 DOJ: 2015-11-23
🌟 Total Experience:📱 Mobile Number: +86 15173149455

 

📖 Publications Top Note :

Article: Numerical Simulation and Casting Experiments on Particle Dispersion in 2219 Al Alloy by Introducing Al–5Ti–1B and Ultrasonic Treatment

Authors: Hu, R., Jiang, R., Li, R., Li, X., Zhou, H.

Journal: International Journal of Metalcasting, 2024, 18(2), pp. 1710–1722

  1. Microstructural evolution and hydrogen content and their effect on properties of TiB2/Al-Li-X composites with different Li contents
    Authors: Xie, Z., Jiang, R., Li, X., Li, R., Zhang, L.
    Journal: Journal of Alloys and Compounds, 2024, 976, 173038
  2. Numerical Simulation of Physical Field During Different Ultrasonic-Power-Assisted Casting of 7085 Aluminum Alloy
    Authors: Li, A., Jiang, R., Hai, X., Fu, A., Li, X.
    Journal: Advanced Engineering Materials, 2024
  3. Effect of ultrasonic power on degassing and microstructure of large-scale 7085 aluminum alloy ingots
    Authors: Jiang, R., Li, A., Hai, X., Zhou, H., Xie, Z.
    Journal: Materials Today Communications, 2023, 37, 107279
  4. Correction: Effect of Low-Intensity Ultrasound on the Temperature Field and Microstructure of 2219 Aluminum Alloy
    Authors: Yang, P.-B.O., Jiang, R.-P., Li, A.-Q., Li, X.-Q.
    Journal: International Journal of Metalcasting, 2023
  5. Effect of Low-Intensity Ultrasound on the Temperature Field and Microstructure of 2219 Aluminum Alloy
    Authors: Yang, P.-B.O., Jiang, R.-P., Li, A.-Q., Li, X.-Q.
    Journal: International Journal of Metalcasting, 2023
  6. The microstructure and mechanical properties of 2219 alloy during ultrasonic treatment
    Authors: Li, A.-Q., Jiang, R.-P., Li, R.-Q., Zhang, L.-H.
    Journal: Materials Science and Technology (United Kingdom), 2023, 39(15), pp. 2135–2146
  7. Microstructure and corrosion resistance of commercial purity aluminum sheet manufactured by continuous casting direct rolling after ultrasonic melt pre-treatment
    Authors: Jiang, R., Zhao, W., Zhang, L., Li, X., Guan, S.
    Journal: Journal of Materials Research and Technology, 2023, 22, pp. 1522–1532
  8. Microstructural evolution and mechanical properties of TiB2/2195 composites fabricated by ultrasonic-assisted in-situ casting
    Authors: Xie, Z., Jiang, R., Li, X., Li, A., He, Z.
    Journal: Ultrasonics Sonochemistry, 2022, 90, 106203
  9. Microstructure evolution and enhanced mechanical properties of additive manufacturing Al-Zn-Mg-Li alloy via forging and aging treatment
    Authors: Zhang, L., Cao, W., Zhang, Y., Jiang, R., Li, X.
    Journal: Journal of Materials Research and Technology, 2022, 18, pp. 4965–4979

Dr. Yong Wang | computational Award | Best Researcher Award

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Dr. Yong Wang | computational Award | Best Researcher Award

Dr. Yong Wang, Zhejiang University, China

Dr. Yong Wang is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

Professional Profiles:

Google scholar

orcid

🎓 Teaching and Tutoring

Jury for International Biosensor Competition: SensUs 2023 (2023)Supervisor for TruSense, Zhejiang University (2021-)Teacher for Ingenious Synthetic Biology, Zhejiang University (2022-)Teaching Assistant for Advanced Protein Science 2 – Protein Structure Determination (graduate course), University of Copenhagen (2020, 2019)Teaching Assistant for Advanced Protein Science (graduate course), University of Copenhagen (2015)Tutor for Postdoc, PhD, MSc, and BSc students.

📝 Editorial Roles

Academic Editor for PLoS One (2023-)Associate Editor for Frontiers in Molecular Biosciences (2021-)Editorial Board Member of Peer J (2023-)Ad Hoc Young Editorial Board Member of Journal of Molecular Cell Biology (JMCB) (2020-)Second Youth Editorial Board Member of Asian Journal of Pharmaceutical Sciences (2023-)

🔍 Reviewer

Journal Reviewer for prestigious journals.Grant Reviewer for the Dutch Research Council (NWO) Computational Grants.

👥 Memberships

Member of the PLUMED ConsortiumMember of the American Society for Biochemistry and Molecular BiologyMember of Chinese Chemical Society

AWARDS & GRANTS🏆

Recognition for contributions:Zhejiang Provincial National Science Foundation (No. XXX) (300 K ¥) 2024-2026National Science Foundation of China (No. 32371300) (500 K ¥) 2024-2027Start-up funding of Zhejiang University (4.0 M ¥) 2021-2027National Key R & D Program of China (No. 2021YFF1200404) (4.55 M ¥) 2021-2024Fundamental Research Funds for the Central Universities of China (No. K20220228) (900 K ¥) 2022-2024HPC-Europa3 Transnational Access program for visiting Max Planck Institute for Biophysical Chemistry Spring of 2020EMBO Short-term Fellowship for visiting Prof. Michele Parrinello lab at ETH Zurich, Switzerland Spring of 2016The PhD Scholarship at the Department of Biology, University of Copenhagen (2013-2016)

Citations: 1547

h-index: 23

i10-index: 31

And if we consider the second set:

Citations: 1074

h-index: 21

i10-index: 30

📖 Publications  Top Note :

A Computational and Chemical Design Strategy for Manipulating Glycan-Protein Recognition

Q Zhu, D Geng, J Li, J Zhang, H Sun, Z Fan, J He, N Hao, Y Tian, L Wen, …

Advanced Science, 2024

Diverse roles of the metal binding domains and transport mechanism of copper transporting P-type ATPases

Z Guo, F Orädd, V Bågenholm, C Grønberg, JF Ma, P Ott, Y Wang, …

Nature Communications, 2609, 2024

Dissecting the mechanism of atlastin-mediated homotypic membrane fusion at the single-molecule level

L Shi, C Yang, M Zhang, K Li, K Wang, L Jiao, R Liu, Y Wang, M Li, …

Nature Communications, 2488, 2024

Euglena’s atypical respiratory chain adapts to the discoidal cristae and flexible metabolism

Z He, M Wu, H Tian, L Wang, Y Hu, F Han, J Zhou, Y Wang, L Zhou

Nature Communications, 1628, 2024

Structures and ion transport mechanisms of plant high-affinity potassium transporters

J Wang, Y Luo, F Ye, ZJ Ding, SJ Zheng, S Qiao, Y Wang, J Guo, W Yang, …

Molecular Plant, 2024

Structural basis for sugar perception by Drosophila gustatory receptors

D Ma, M Hu, X Yang, Q Liu, F Ye, W Cai, Y Wang, X Xu, S Chang, R Wang, …

Science, eadj2609, 2024

PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney injury

Q Zhang, T Sun, F Yu, W Liu, J Gao, J Chen, H Zheng, J Liu, C Miao, …

Nature Chemical Biology, 1-12, 2024

Structure and mechanism of Zorya anti-phage defense system

H Hu, TCD Hughes, PF Popp, A Roa-Eguiara, FJO Martin, N Rutbeek, …

bioRxiv, 1, 2024

The effect of linker conformation on performance and stability of a two-domain lytic polysaccharide monooxygenase

Z Forsberg, AA Stepnov, G Tesei, Y Wang, E Buchinger, SK Kristiansen, …

Journal of Biological Chemistry, 299 (11), 2023

Ex vivo structures from spinach leaves

J Wang, NT Johansen, LF Gamon, Z Zhao, Z Guo, Y Wang, AT Fuglsang, …

biorxiv, 2023