Ding Peng | Intelligent Vehicles | Best Researcher Award

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Assist. Prof. Dr Ding Peng | Intelligent Vehicles | Best Researcher Award

Associate Professor | wuxi university of technology | China

Ding Peng, Associate Professor at Wuxi University of Technology and key member of the Jiangsu Province Engineering Research Center for Energy Saving and Safety of New Energy Vehicles, focuses on thermal management technology for new energy vehicles, control strategies for autonomous vehicles, and intelligent connected vehicle technologies, emphasizing the integration of academic research with industrial applications, leading numerous enterprise-driven and government-funded projects, publishing high-level academic papers, obtaining multiple national patents, supervising undergraduate graduation projects, academic competitions, and innovation programs, teaching courses including Automobile Structure, Automobile Theory, Principles of Automatic Control, and Intelligent Connected Vehicle Technology, previously working as a design engineer at King Long United Automotive Industry participating in the design and development of commercial buses, applying a strong theoretical foundation and extensive engineering experience to advance practical solutions for new energy and autonomous vehicles, contributing to innovation in vehicle thermal management systems, intelligent control methods, and industry-academia collaborative projects, dedicated to cultivating high-quality engineering talent and promoting the implementation of cutting-edge research findings in industrial settings, integrating vehicle engineering knowledge with smart vehicle systems, supporting the development of energy-efficient and safe new energy vehicles, fostering advancements in autonomous vehicle control algorithms, enhancing intelligent and connected vehicle functionalities, combining teaching, research, and applied engineering to drive progress in sustainable transportation technology, actively bridging theoretical study with real-world automotive engineering challenges, committed to advancing the next generation of intelligent mobility solutions, contributing to the scientific community and the automotive industry through practical, innovative, and interdisciplinary approaches in vehicle engineering, thermal management, and connected vehicle systems.

Featured Publications:

Prof. Wenlong Song | Mechnical Engineering | Best Researcher Award

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Prof. Wenlong Song | Mechnical Engineering | Best Researcher Award

Jining University | China

Featured Publications:

Surendra Kumar Patel | Surface Composite | Best Researcher Award

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Dr. Surendra Kumar Patel | Surface Composite | Best Researcher Award

Shandong University | China

Surendra Kumar Patel is a dedicated researcher and academic with a strong foundation in mechanical engineering and materials science, specializing in the development of advanced surface composites, friction stir processing, and bioactive materials for engineering and biomedical applications. He earned his Bachelor of Technology in Mechanical Engineering from Gautam Buddha Technical University, where he completed a thesis project on the fabrication of a windmill model and the utilization of wind energy, followed by a Master of Technology in Mechanical Engineering with a specialization in metal matrix composites at Maulana Azad National Institute of Technology Bhopal, where his research focused on microstructural analysis and slurry erosion wear behavior of silicon carbide and zircon sand reinforced LM-13 alloy composites, and later achieved a Ph.D. in Mechanical Engineering with specialization in surface composites at the National Institute of Technology Mizoram, where his doctoral thesis dealt with experimental investigations into the microstructural, mechanical, and tribological properties of WC and ZrSiO4 particle reinforced aluminium surface composites fabricated through the friction stir processing route. His professional career began as an Assistant Professor in the Department of Mechanical Engineering at Radharaman Engineering College, Bhopal, where he taught key subjects such as strength of materials, fluid mechanics, materials technology, mechanics of materials, and manufacturing technology, in addition to supervising undergraduate projects and serving as Head of Department for the polytechnic wing. Currently, he is serving as a Postdoctoral Fellow at the School of Materials Science and Engineering, Shandong University, China, under a special funded postdoctoral fellowship program, where his work is supported by multiple prestigious funding agencies including the National Natural Science Foundation of China, Shandong Provincial Science Foundation for Outstanding Young Scholars, and the Key Research and Development Program of Shandong Province. engineering, surface composites, and advanced friction stir processing technologies with both industrial relevance and biomedical potential.

Profile:Β  Google Scholar

Featured Publications:

Singh, V. P., Patel, S. K., Ranjan, A., & Kuriachen, B. (2020). Recent research progress in solid state friction-stir welding of aluminium–magnesium alloys: A critical review. Journal of Materials Research and Technology, 9(3), 6217–6256.

Singh, V. P., Patel, S. K., & Kuriachen, B. (2021). Mechanical and microstructural properties evolutions of various alloys welded through cooling assisted friction-stir welding: A review. Intermetallics, 133, 107122.

Patel, S. K., Singh, V. P., Roy, B. S., & Kuriachen, B. (2020). Recent research progresses in Al-7075 based in-situ surface composite fabrication through friction stir processing: A review. Materials Science and Engineering: B, 262, 114708.

Singh, V. P., Patel, S. K., Kumar, N., & Kuriachen, B. (2019). Parametric effect on dissimilar friction stir welded steel-magnesium alloys joints: A review. Science and Technology of Welding and Joining, 24(8), 653–684.

Patel, S. K., Kuriachen, B., Kumar, N., & Nateriya, R. (2018). The slurry abrasive wear behaviour and microstructural analysis of A2024-SiC-ZrSiO4 metal matrix composite. Ceramics International, 44(6), 6426–6432.

Patel, S. K., Singh, V. P., Kumar, D., Roy, B. S., & Kuriachen, B. (2022). Microstructural, mechanical and wear behavior of A7075 surface composite reinforced with WC nanoparticle through friction stir processing. Materials Science and Engineering: B, 276, 115476.

Patel, S. K., Singh, V. P., & Kuriachen, B. (2019). Friction stir processing of alloys with secondary phase particles: An overview. Materials and Manufacturing Processes, 34(13), 1429–1457.

Patel, S., Shah, M., Patel, J., & Kumar, N. (2009). Iron deficiency anemia in moderate to severely anaemia patients. Gujarat Medical Journal, 64(2), 15–17.

Yadav, P. K., Dixit, G., Dixit, S., Singh, V. P., Patel, S. K., Purohit, R., & Kuriachen, B. (2021). Effect of eutectic silicon and silicon carbide particles on high stress scratching wear of aluminium composite for various testing parameters. Wear, 482, 203921.

Patel, S. K., Singh, V. P., Roy, B. S., & Kuriachen, B. (in press). Microstructural, mechanical and wear behavior of A7075 surface composite reinforced with WC and ZrSiO4 nanoparticle through friction stir processing. Materials Science and Engineering: B.

Tuo Zhou | Control Engineering | Best Researcher Award

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Dr. Tuo Zhou | Control Engineering| Best Researcher Award

Β Lecturer | Shandong Technology and Business University | China

Dr. Tuo Zhou is a distinguished academic and researcher serving as a lecturer at the School of Information and Electronic Engineering, Shandong Technology and Business University, Yantai, China, and concurrently holding the position of Postdoctoral Researcher at the Institute of Information Fusion, Naval Aviation University. Zhou’s academic journey began with his undergraduate studies at Wuhan University of Science and Technology, where he earned his B.S. degree in Information Science and Engineering. He further advanced his academic credentials by pursuing and completing his Ph.D. degree at Dalian University of Technology’s School of Control Science and Engineering. Zhou’s research endeavors are centered around several key areas, including stochastic systems, event-triggered control, and the cooperative control of multi-agent systems. His expertise in these domains has contributed significantly to the advancement of control science and engineering. As an active and prolific researcher, Zhou has published numerous papers in reputable journals, showcasing his depth of knowledge and commitment to his field. His research contributions have implications for a wide range of applications, from multi-agent systems to information fusion. In his role as a lecturer, Zhou is dedicated to imparting his knowledge and expertise to students, fostering their understanding and skills in information and electronic engineering. His dual role as a lecturer and postdoctoral researcher underscores his passion for both education and research. Zhou’s work in stochastic systems and control theory is particularly noteworthy, as it addresses complex challenges and offers innovative solutions that can be applied across various disciplines. His involvement in the academic community extends beyond his research and teaching, as he engages with peers and contributes to the body of knowledge in his field. Through his research and academic pursuits, Tuo Zhou continues to make significant contributions to the field of control science and engineering, solidifying his position as a respected and accomplished researcher

Profile:Β  ScopusΒ 

Featured Publications:

Zhou, T. (2025). Distributed dynamic event-triggered secondary control scheme based on sampled-data for islanded microgrids. Journal of Power Electronics.

If the article already has volume, issue, and page numbers, or a DOI, those should also be included. For example:

Zhou, T. (2025). Distributed dynamic event-triggered secondary control scheme based on sampled-data for islanded microgrids. Journal of Power Electronics, 25(3), 123–134.

huang wei | engineering vibration and noise control | Best Researcher Award

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Prof. Dr. huang wei | engineering vibration and noise control | Best Researcher AwardΒ 

Professor level senior engineer, Ph.d., SINOMACH Academy of Science and Technology Co. Ltd, SINOMACH Research Center of Engineering Vibration Control Technology, China

Huang Wei is a renowned expert in vibration control and noise reduction. With a strong academic background and extensive research experience, he has made significant contributions to the field of vibration engineering. His work has been recognized through various awards and honors, and he continues to be an active researcher and presenter at conferences worldwide.

Profile

orcid

Education πŸŽ“

Huang Wei received his education in China, graduating with a degree in a relevant field. Although specific details of his educational background are not provided, his academic achievements and research experience demonstrate a strong foundation in vibration engineering and related disciplines.

Experience πŸ’Ό

Huang Wei has accumulated extensive experience in vibration control and noise reduction through various research projects and collaborations. He has worked on projects funded by government agencies and industry partners, demonstrating his ability to secure funding and work with diverse stakeholders. His experience also includes presenting research at conferences and publishing papers in academic journals.

Awards and Awards πŸ†

Huang Wei has received recognition for his contributions to vibration engineering, although specific details of the awards and honors are not provided. His achievements demonstrate expertise and dedication to his field, earning him a reputation as a leading researcher.

Research Focus

Huang Wei’s research focuses on vibration control, noise reduction, and related topics. He explores innovative methods and technologies to mitigate vibration and noise, with applications in various industries, including construction, manufacturing, and defense. His work aims to improve the performance, safety, and efficiency of systems and structures.

Publications πŸ“š

1. Vibration-sensitive equipment-decoupled vibration control-mass concrete foundation-soil spring πŸŒ†
2. MRD parameter identification and its application in semiactive vibration control of power equipment and explosive vibration πŸ’»
3. MRD parameter identification and its application in semiactive vibration control of power equipment and explosive vibration πŸ’₯
4. MRD parameter identification and its application in power equipment vibration control and explosion isolation πŸš€
5. Equipment, Building Floor Dynamic Vibration Absorption Design and Optimization 🏒
6. Comfort Technical Standardsβ€”Wind-induced, human-induced, power equipment, traffic vibration and secondary radiated noise πŸ—£οΈ
7. Engineering Vibration, Secondary Radiated Noise Related Comfort Standards and Building Vibration Isolation πŸ“Š

Xueliang Xiao | Shape memery polymers | Best Researcher Award

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Prof. Xueliang Xiao | Shape memery polymers | Best Researcher Award

Dirctor, Jiangnan University, China

Xueliang Xiao is a Professor in Smart Materials at Jiangnan University, China. He received his Ph.D. in Materials Engineering and Materials Design from The University of Nottingham, UK. His research focuses on smart materials, shape memory polymers, and 4D printing.

Profile

scholar

Education πŸŽ“

Xueliang Xiao received his Ph.D. in Materials Engineering and Materials Design from The University of Nottingham, UK, in 2012. He was supervised by Prof. Andrew C. Long.

Experience πŸ§ͺ

Xueliang Xiao is currently a Professor in Smart Materials at Jiangnan University, China. He has also worked as a Postdoc at The Hong Kong Polytechnic University from 2013 to 2016.

Awards & Honors οΏ½

Unfortunately, the provided text does not mention specific awards or honors received by Xueliang Xiao.

Research Focus πŸ”

Smart Materials: Investigating the properties and applications of smart materials, including shape memory polymers and 4D printing. Β Shape Memory Polymers: Exploring the synthesis, properties, and applications of shape memory polymers.. 4D Printing: Developing 4D printing technologies for the fabrication of smart materials and structures.

PublicationsπŸ“š

1. Broad detection range of flexible capacitive sensor with 3D printed interwoven hollow dual-structured dielectric layer πŸ€–
2. Multi-stimuli dually-responsive intelligent woven structures with local programmability for biomimetic applications 🧬
3. Multi-stimuli responsive shape memory behavior of dual-switch TPU/CB/CNC hybrid nanocomposites as triggered by heat, water, ethanol, and pH βš—οΈ
4. A novel flexible piezoresistive sensor using superelastic fabric coated with highly durable SEBS/TPU/CB/CNF nanocomposite for detection of human motions πŸ‹οΈβ€β™€οΈ
5. 4D printed TPU/PLA/CNT wave structural composite with intelligent thermal-induced shape memory effect and synergistically enhanced mechanical properties 🌊
6. Subtle devising of electro-induced shape memory behavior for cellulose/graphene aerogel nanocomposite πŸ’»
7. Aerogels with shape memory ability: Are they practical? -A mini-review ❓
8. Highly sensitive and flexible piezoresistive sensor based on c-MWCNTs decorated TPU electrospun fibrous network for human motion detection πŸ€–
9. Electroinduced shape memory effect of 4D printed auxetic composite using PLA/TPU/CNT filament embedded synergistically with continuous carbon fiber: A theoretical & experimental analysis πŸ“Š
10. Synthesis and Properties of Multistimuli Responsive Shape Memory Polyurethane Bioinspired from Ξ±-Keratin Hair πŸ’‡β€β™€οΈ
11. Fabrication of capacitive pressure sensor with extraordinary sensitivity and wide sensing range using PAM/BIS/GO nanocomposite hydrogel and conductive fabric πŸ“ˆ
12. Mechanical properties and shape memory effect of 4D printed cellular structure composite with a novel continuous fiber-reinforced printing path πŸ“ˆ
13. Tracing evolutions in electro-activated shape memory polymer composites with 4D printing strategies: A systematic review πŸ“Š

Conclusion πŸ†

Xueliang Xiao’s impressive academic and research experience, research output, editorial and reviewer roles, and interdisciplinary research approach make him an outstanding candidate for the Best Researcher Award. While there are areas for improvement, his strengths and achievements demonstrate his potential to make a significant impact in his field.

chunhong gong | composites | Best Researcher Award

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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 πŸŽ“

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 πŸ…

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 πŸ”¬

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 πŸ“–

Structural design in reduced graphene oxide (RGO) metacomposites for enhanced microwave absorption in wide temperature spectrumΒ  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.

ERHAN BAYSAL | Mechanical Engineering | Best Researcher Award

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Mr. ERHAN BAYSAL |Β  Mechanical Engineering | Best Researcher Award

Lecturer at Laser Research Centre, Zonguldak Bülent Ecevit Üniversitesi, China

Erhan Baysal is a Lecturer at BΓΌlent Ecevit University, specializing in Mechanical Engineering. With a strong background in materials science and manufacturing processes, particularly in friction welding, he has contributed to numerous academic publications. His academic journey spans various prestigious institutions, and he actively participates in research and academic projects related to material behavior, mechanical design, and welding technologies. πŸ“šπŸ”§πŸ‘¨β€πŸ«

Profile

scholar

Education πŸŽ“

Master’s in Mechanical Engineering, BΓΌlent Ecevit University, 2019 πŸŽ“Bachelor’s in Mechanical Engineering, FΔ±rat University, 2013

Experience πŸ«πŸ’»

Lecturer, BΓΌlent Ecevit University, 2016–present πŸŽ“Researcher in national projects on manufacturing processes πŸ› οΈInstructor in various courses including Strength of Materials and Manufacturing Processes

Awards and Honors πŸ†

Contributor to several peer-reviewed articles in international journalsPublished in prestigious conferences and journals on materials and welding technologies πŸ“‘Awarded for his contribution to applied research in friction welding and mechanical design 🌍

Research FocusπŸ”¬πŸ”©

Erhan Baysal’s research focuses on materials science, particularly the mechanical behavior and welding of aluminum alloys using friction stir welding. He also explores deformation processes in material shaping and manufacturing optimization.

PublicationΒ  Top Notes

An Overview of Deformation Path Shapes on Equal Channel Angular Pressing” (2022)

Authors: E. Baysal, O. Koçar, E. Kocaman, U. Kâklü

Journal: Metals 12 (11), 1800

Summary: This paper discusses the deformation paths formed during equal channel angular pressing (ECAP). The study focuses on how different processing parameters, such as the angle of the channels, affect the microstructure and mechanical properties of the material.

“Mechanical Behavior of a Friction Welded AA6013/AA7075 Beam” (2022)

Authors: O. Koçar, M. Yetmez, E. Baysal, H.A. Ozyigit

Journal: Materials Testing 64 (2), 284-293

Summary: This research investigates the mechanical properties of beams made from AA6013 and AA7075 aluminum alloys joined via friction welding. The study examines the mechanical behavior of the weld joint, focusing on parameters such as strength, hardness, and fracture toughness.

“A New Approach in Part Design for Friction Stir Welding of 3D-Printed Parts with Different Infill Ratios and Colors” (2024)

Authors: O. Koçar, N. Anaç, E. Baysal

Journal: Polymers 16 (13), 1790

Summary: This paper introduces a novel approach to part design for friction stir welding (FSW) of 3D-printed parts. The study evaluates how different infill ratios and colors in 3D printing affect the welding process, quality, and mechanical properties of the final product.

“Eşit KanallΔ± AΓ§Δ±sal Presleme YΓΆnteminde Kanal AΓ§Δ±larΔ±nΔ±n ve Δ°Γ§ Kâşe Kavisinin Deformasyona Etkisinin Sonlu Elemanlar Metodu ile Δ°ncelenmesi” (2023)

Authors: E. Baysal, O. Koçar, N. Anaç, F. Darıcı

Journal: Γ‡ukurova Üniversitesi MΓΌhendislik FakΓΌltesi Dergisi 38 (3), 859-873

Summary: This paper investigates the effect of channel angles and inner corner radii on deformation during equal channel angular pressing (ECAP) using finite element method (FEM) simulations. The research provides insights into how these factors influence material flow and structural integrity.

“GΓΆrΓΌntΓΌ İşleme Teknikleri ile Rulo Sac Hassas Doğrultmada Silindir KonumlarΔ±nΔ±n Belirlenmesi” (2021)

Authors: O. Koçar, S. Dikici, H. Uçar, E. Baysal

Journal: El-Cezeri 8 (2), 604-617

Summary: This article explores the use of image processing techniques to determine the cylinder positions in precision flattening of rolled sheets. The study demonstrates how computer vision can enhance manufacturing processes, particularly in achieving high precision in material deformation.

“3B YazΔ±cΔ±da Üretilen PlakalarΔ±n SΓΌrtΓΌnme KarıştΔ±rma Kaynak Parametrelerinin YSA ile Tahmini” (2024)

Authors: N. Anaç, O. Koçar, E. Baysal

Journal: Niğde Γ–mer Halisdemir Üniversitesi MΓΌhendislik Bilimleri Dergisi 13 (1), 176-187

Summary: This paper presents a prediction model using artificial neural networks (ANN) to estimate the parameters for friction stir welding of 3D-printed plates. The research focuses on optimizing welding conditions to improve the quality and strength of the welded joints.

“Etial 180 AlaşımΔ±na Δ°lave Edilen BakΔ±rΔ±n MikroyapΔ±, Sertlik ve Korozyon Üzerindeki Etkisi” (2023)

Authors: E. Kocaman, E. Baysal, O. Koçar, A.S. Güldibi, S. Şirin

Journal: Niğde Γ–mer Halisdemir Üniversitesi MΓΌhendislik Bilimleri Dergisi 12 (2), 604-611

Summary: This study investigates the impact of adding copper to Etial 180 alloy, focusing on its effect on microstructure, hardness, and corrosion resistance. The findings highlight the potential improvements in material properties when copper is incorporated into the alloy.

“Barkhausen Noise as A Magnetic Nondestructive Testing Technique”

Authors: Ö. Adanur, O. Koçar, A.S. Güldibi, E. Kocaman, E. Baysal

Journal: Black Sea Journal of Engineering and Science 7 (4), 7-8

Summary: The paper explores the use of Barkhausen noise as a nondestructive testing (NDT) technique to assess the magnetic properties of materials. This method is useful in evaluating the integrity and structural health of components without causing damage.

“AA6013/AA7075 AlΓΌminyum Malzemelerin SΓΌrtΓΌnme Kaynağı YΓΆntemiyle Birleştirilmesi ve Analizi”

Authors: E. Baysal, O. Koçar, M. Yetmez, H.A. Ozyigit

Summary: This research focuses on the friction stir welding (FSW) of AA6013 and AA7075 aluminum alloys, analyzing the mechanical properties, microstructure, and joint quality achieved by this welding method.

Conclusion

Erhan Baysal has shown exceptional dedication to advancing mechanical engineering through his research and teaching. His focus on cutting-edge manufacturing technologies, coupled with his broad publication history, makes him a strong candidate for the Best Researcher Award. With further interdisciplinary integration and industry collaborations, he could significantly elevate the practical applications of his research, solidifying his role as a leading figure in the field. His ongoing work promises to continue shaping the future of mechanical engineering.

Jianshi Jin | Biotechnology | Best Researcher Award

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Prof. Jianshi Jin | Intelligent automobile | Best Researcher Award

Prof. Institute of Zoology, Chinese Academy of Sciences, china

Dr. Jianshi Jin is a distinguished Professor at the Institute of Zoology, Chinese Academy of Sciences in Beijing. With a Ph.D. in Biomechanics and Medical Engineering from Peking University, his research focuses on DNA-protein interactions. Dr. Jin has held notable positions at RIKEN Center for Biosystems Dynamics Research in Japan and BIOPIC at Peking University. His accolades include the RIKEN EIHO Award, Excellent Research Award from LSACJ, and the Ohbu Technology Incentive Award. A prolific researcher, Dr. Jin has earned numerous fellowships, travel awards, and recognition for his academic excellence and contributions to life sciences.

 

Professional Profiles:

Google scholar

πŸ“š Professional Appointments

2023.03 ~ Present: Professor, Institute of Zoology, Chinese Academy of Sciences, Beijing, China.2016.04 ~ 2023.03: Senior Scientist/Research Scientist/JSPS Postdoctoral Fellowship, RIKEN Center for Biosystems Dynamics Research (BDR), Japan.Mentor: Dr. Katsuyuki Shiroguchi.2014.07 ~ 2016.03: Postdoctoral Fellowship, BIOPIC, School of Life Science, Peking University, China.Mentor: Prof. Xiao-Dong Su.

πŸŽ“ Education

2009.09 ~ 2014.06: Ph.D. in Biomechanics and Medical Engineering, BIOPIC & Academy for Advanced Interdisciplinary Studies, Peking University, China.Advisors: Profs. X. Sunney Xie, Xiao-Dong Su, Yujie Sun & Fan Bai.Thesis: β€œThe fine-tuning regulation of the DNA structure in DNA-protein interaction studied using single-molecule method.”2010.08 ~ 2011.01: Visiting Scholar, Xie Group, Department of Chemistry and Chemical Biology, Harvard University, USA.Advisor: Prof. X. Sunney Xie.2005.09 ~ 2009.07: B.S. in Chemistry, School of Chemistry and Chemical Engineering, Nanjing University, China.Advisor: Prof. Jing-Lin Zuo.Thesis: β€œChemical Studies of New Multifunctional Metal Complexes with Multi-Sulfur Ligands.”

πŸ… Awards and Honors

2024: The RIKEN EIHO Award (理研荣峰衏).2024: The “Excellent Research Award” from the Life Science Association of Chinese in Japan (LSACJ).2023: The 14th Ohbu (樱舞) Technology Incentive Award.

Strengths for the Awards

Research for Best Researcher Award

  1. Notable Awards and Recognition: The individual has received prestigious awards such as the RIKEN EIHO Award and the “Excellent Research Award” from the Life Science Association of Chinese in Japan. These accolades reflect their significant contributions and excellence in their field.
  2. High-Caliber Research: Their research on DNA-protein interactions using single-molecule methods represents a major advancement in understanding fundamental biological processes. This work has potential applications in medical and biotechnological fields, which can directly impact community health and disease management.
  3. International Experience: With postdoctoral experience at renowned institutions like RIKEN Center and Peking University, and participation in the Global Young Scientists Summit, their work has an international perspective that could influence global health solutions.
  4. Awards for Community Engagement: Awards like the 14th Ohbu Technology Incentive Award indicate a recognition of impactful contributions beyond academic research. However, specific details about community-oriented projects or public engagement are not provided.

Areas for Improvement

  1. Direct Community Engagement: The profile does not specify involvement in community-based projects or initiatives that translate research into practical benefits for the general public. Emphasizing any community outreach, educational programs, or applied research projects could strengthen their candidacy.
  2. Documentation of Community Impact: Providing examples of how their research has directly benefited communities, such as through collaboration with public health organizations or educational outreach, would be beneficial.

Best Researcher Award

  1. Exceptional Academic and Professional Background: The individual has an impressive academic background with a Ph.D. and significant postdoctoral research experience. Their contributions to understanding DNA-protein interactions and the chemical studies of metal complexes are noteworthy.
  2. High-Level Recognition: Numerous awards, including the Cold Spring Harbor Asia Fellowship Award and various scholarships, underscore their excellence and leadership in their field.
  3. Influential Research: Their research has been recognized both nationally and internationally, showcasing their impact on the scientific community. Their involvement in high-profile research and conferences further highlights their status as a leading researcher.
  4. Publications and Research Output: Their extensive list of awards and honors reflects a strong track record of research excellence and influence in their field.

Conclusion

  • Research for Community Impact Award: While the individual’s research is highly impactful and recognized, the profile lacks specific examples of direct community engagement or projects that have translated research into practical benefits for the public. Enhancing their profile with details of community-oriented initiatives or applied research could improve their suitability for this award.
  • Best Researcher Award: The individual is highly suitable for the Best Researcher Award due to their outstanding academic and professional achievements, significant research contributions, and high-level recognition. Their extensive list of awards and honors and their impactful research work strongly position them as a leading candidate for this award.

✍️Publications Top Note :

Probing allostery through DNA

Authors: S. Kim, E. BrostrΓΆmer, D. Xing, J. Jin, S. Chong, H. Ge, S. Wang, C. Gu, L. Yang, …

Journal: Science, 339(6121), 816-819 (2013)

Citations: 293

Nonspecific DNA binding of cGAS N terminus promotes cGAS activation

Authors: J. Tao, X.W. Zhang, J. Jin, X.X. Du, T. Lian, J. Yang, X. Zhou, Z. Jiang, X.D. Su

Journal: The Journal of Immunology, 198(9), 3627-3636 (2017)

Citations: 77

The effects of cytosine methylation on general transcription factors

Authors: J. Jin, T. Lian, C. Gu, K. Yu, Y.Q. Gao, X.D. Su

Journal: Scientific Reports, 6(1), 29119 (2016)

Citations: 53

Rhenium (I) tricarbonyl complexes with bispyridine ligands attached to sulfur-rich core: Syntheses, structures and properties

Authors: Y. Chen, W. Liu, J.S. Jin, B. Liu, Z.G. Zou, J.L. Zuo, X.Z. You

Journal: Journal of Organometallic Chemistry, 694(5), 763-770 (2009)

Citations: 41

A circulating subset of iNKT cells mediates antitumor and antiviral immunity

Authors: G. Cui, A. Shimba, J. Jin, T. Ogawa, Y. Muramoto, H. Miyachi, S. Abe, T. Asahi, …

Journal: Science Immunology, 7(76), eabj8760 (2022)

Citations: 24

Cancer biology deciphered by single-cell transcriptomic sequencing

Authors: Y. Li, J. Jin, F. Bai

Journal: Protein & Cell, 13(3), 167-179 (2022)

Citations: 23

Highly sensitive identification of cancer cells by combining the new tetrathiafulvalene derivative with a Ξ²-cyclodextrin/multi-walled carbon nanotubes modified GCE

Authors: J. Zhao, J. Jin, C. Wu, H. Jiang, Y. Zhou, J. Zuo, X. Wang

Journal: Analyst, 135(11), 2965-2969 (2010)

Citations: 22

High-throughput identification and quantification of single bacterial cells in the microbiota

Authors: J. Jin, R. Yamamoto, T. Takeuchi, G. Cui, E. Miyauchi, N. Hojo, K. Ikuta, …

Journal: Nature Communications, 13(1), 863 (2022)

Citations: 13

Deep sequencing reveals global patterns of mRNA recruitment during translation initiation

Authors: R. Gao, K. Yu, J. Nie, T. Lian, J. Jin, A. Liljas, X.D. Su

Journal: Scientific Reports, 6(1), 30170 (2016)

Citations: 12

Robotic data acquisition with deep learning enables cell image–based prediction of transcriptomic phenotypes

Authors: J. Jin, T. Ogawa, N. Hojo, K. Kryukov, K. Shimizu, T. Ikawa, T. Imanishi, …

Journal: Proceedings of the National Academy of Sciences, 120(1), e2210283120 (2023)

Citations: 11

Sensory neuronal STAT3 is critical for IL-31 receptor expression and inflammatory itch

Authors: S. Takahashi, S. Ochiai, J. Jin, N. Takahashi, S. Toshima, H. Ishigame, …

Journal: Cell Reports, 42(12) (2023)

Citations: 6

Hang Wu | Intelligent automobile | Best Researcher Award

Published on by Mechanics Awards

Dr. Hang Wu | Intelligent automobile | Best Researcher Award

Dr. Chongqing Tsingshan Industrial Company Ltd, china

Hang Wu received his Ph.D. in Automotive Engineering from Chongqing University in 2021. He is currently a Senior Deputy Chief Engineer at Chongqing Tsingshan Industrial Company Ltd and a postgraduate tutor at Chongqing University of Technology. His research focuses on automobile vehicles and their dynamic control, contributing to advancements in automotive engineering through both his industrial and academic roles.

 

Professional Profiles:

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πŸš— Dr. Hang Wu: Expert in Automotive Engineering πŸš—

Dr. Hang Wu received his Ph.D. in Automotive Engineering from Chongqing University, China, in 2021. He is currently a Senior Deputy Chief Engineer at Chongqing Tsingshan Industrial Company Ltd and a postgraduate tutor at Chongqing University of Technology. His research interests include automobile vehicles and their dynamic control, contributing to advancements in automotive engineering through both his industrial and academic roles. πŸš™πŸ”§πŸ“š

πŸ† Dr. Hang Wu: A Candidate for the Best Researcher Award πŸ†

Profile Summary

Dr. Hang Wu received his Ph.D. in Automotive Engineering from Chongqing University, China, in 2021. He currently holds the position of Senior Deputy Chief Engineer at Chongqing Tsingshan Industrial Company Ltd and serves as a postgraduate tutor at Chongqing University of Technology. His research interests lie in automobile vehicles and their dynamic control.

Strengths for the Award

  1. Innovative Research Contributions: Dr. Wu has made significant contributions to the field of automotive engineering through his research on vehicle dynamics and control systems. His work has been published in prestigious journals such as the Journal of Automobile Engineering, Journal of Sound and Vibration, and Applied Sciences.
  2. Practical Industry Experience: As a Senior Deputy Chief Engineer, Dr. Wu has the opportunity to apply his research directly to the automotive industry. This practical experience ensures that his research is not only theoretical but also has real-world applications, improving vehicle performance and safety.
  3. Educational Influence: Dr. Wu is committed to educating the next generation of engineers through his role as a postgraduate tutor at Chongqing University of Technology. His mentorship helps foster a culture of innovation and research excellence among students.
  4. Focus on Vehicle Dynamics and Control: Dr. Wu’s specialization in vehicle dynamics and control is critical to advancing automotive technology. His research on optimizing suspension systems and improving vehicle performance contributes to safer, more efficient automobiles.

Areas for Improvement

  1. Broader Community Engagement: While Dr. Wu’s work has significant industrial and academic impact, increasing his engagement with the broader community could further enhance his contributions. Participating in public forums or community projects focused on automotive safety and technology awareness could amplify the impact of his research.
  2. Interdisciplinary Collaboration: Collaborating with experts in related fields such as urban planning, environmental science, and public health could broaden the scope and impact of his research. This interdisciplinary approach would allow for more holistic solutions to community challenges related to transportation.
  3. Increased Outreach and Dissemination: Expanding efforts to disseminate research findings through popular media, workshops, and public seminars can increase public awareness and understanding of his work’s benefits. Engaging with non-academic audiences would further demonstrate the societal relevance of his research.

Conclusion

Dr. Hang Wu is an excellent candidate for the Best Researcher Award. His innovative research in automotive engineering, combined with his practical industry experience and educational roles, significantly contributes to the advancement of vehicle technology and community safety. By addressing areas for improvement such as community engagement and interdisciplinary collaboration, Dr. Wu could further enhance the societal impact of his work, making him an even stronger contender for this prestigious award.

✍️Publications Top Note :

Comprehensive Analysis for Influence of Complex Coupling Effect and Controllable Suspension Time Delay on Hub-Driving Electric Vehicle Performance
πŸ“… 2022-01 | πŸ“° Journal Article | ✏️ Author
Published in: Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering
DOI: 10.1177/09544070211018555
ISSN: 0954-4070, 2041-2991
Contributors: Hang Wu, Ling Zheng, Yinong Li, Zhida Zhang, Yixiao Liang, Yiming Hu

Coupling Effects in Hub Motor and Optimization for Active Suspension System to Improve the Vehicle and the Motor Performance
πŸ“… 2020-09 | πŸ“° Journal Article
Published in: Journal of Sound and Vibration
DOI: 10.1016/j.jsv.2020.115426
ISSN: 0022-460X
Contributors: Hang Wu, Ling Zheng, Yinong Li

Robust Control for Active Suspension of Hub-Driven Electric Vehicles Subject to In-Wheel Motor Magnetic Force Oscillation
πŸ“… 2020-06 | πŸ“° Journal Article | ✏️ Author
Published in: Applied Sciences
DOI: 10.3390/app10113929
Contributors: Hang Wu, Ling Zheng, Yinong Li, Zhida Zhang, Yinghong Yu