Yang Xiao | Tongji University | Best Researcher Award

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Prof. Yang Xiao | Tongji University | Best Researcher Award

Associate Professo at  Jilin University, China

Xiao Y. is a prominent researcher specializing in lithium-ion batteries, thermal runaway safety, and mechanical energy storage. With numerous impactful publications in top-tier journals, Xiao contributes extensively to advancing battery safety, uncertainty quantification for autonomous systems, and flame-retardant electrolyte designs.

 

Professional Profiles:

scopus

🎓 Education:

Ph.D. in Energy Storage and Engineering, Jilin University (2023).M.Sc. in Mechanical Engineering, Jilin University (2020).B.Sc. in Energy Engineering, Jilin University (2016).

💼 Experience:

Lead Researcher at Energy Storage Innovation Lab, focusing on thermal runaway and safety mechanisms for lithium-ion batteries.Published extensively in journals like Advanced Science, IEEE Access, and Chemical Engineering Journal.Collaborated on innovative solutions for autonomous vehicles and battery thermal management.

🏆 Awards and Honors:

2024: Best Paper Award – Energy Storage Journal.2023: Excellence in Research Award – Jilin University.2022: Outstanding Contribution Award – Journal of Electrochemical Energy Conversion.

🔬 Research Focus:

Lithium-ion battery safety ⚡Thermal runaway mechanisms 🔥Battery thermal management 🛠️Monte Carlo methods for autonomous vehicles 🚗Flame-retardant electrolytes for enhanced safety 🧪

✍️Publications Top Note :

Machine Learning in Battery Estimation: This covers methods and theoretical developments for estimating the state of charge (SOC) and state of health (SOH) of batteries in electric vehicles.

Thermal Runaway Safety: Papers exploring the triggers, consequences, and mitigation methods for thermal runaway in lithium-ion batteries.

Battery Thermal Management: Reviews discussing strategies to enhance thermal management systems for EV batteries.

Mechanical Abuse and Battery Safety: Reviews analyzing mechanical abuse-related thermal runaway models across different scales.

Monte Carlo Dropout in Autonomous Vehicles: A paper on leveraging Monte Carlo dropout for real-time uncertainty quantification in object detection, with applications in autonomous vehicles.

Conclusion

The candidate demonstrates significant potential and achievements for the Best Researcher Award in Engineering at Jilin University. Their educational background, focused expertise in intelligent electric vehicles, and contributions to a nationally funded project underline their research capabilities and innovative approach. To further strengthen their candidacy, focusing on high-impact publications, securing PI roles, and fostering international collaborations will solidify their standing as a leading researcher.

Mr. Yongbiao Mu | Lithium ion batteries | Best Researcher Award

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Mr. Yongbiao Mu | Lithium ion batteries | Best Researcher Award

PhD student of Medicine at Southern University of Science and Technology, China

Ph.D. in Material Science and Engineering (2021 – 2025) Southern University of Science and Technology (SUSTech), China Research Focus: Lithium/Zinc metal battery anodes, solid-state electrolytes, interface characterization.

Publication Profile

scholar

Education:

Ph.D. in Material Science and Engineering (2021 – 2025) Southern University of Science and Technology (SUSTech), China Research Focus: Lithium/Zinc metal battery anodes, solid-state electrolytes, interface characterization. M.S. in Materials Engineering (2016 – 2019) Harbin Institute of Technology (HIT), China Research Focus: Electrospun carbon nanofibers, CVD-grown vertically aligned graphene, lithium-ion battery anodes. B.S. in Water Quality Science and Technology (2004 – 2008) Nanjing Tech University, China Research Focus: Membrane materials, metal corrosion, and protection.

Work Experience:

Research Assistant (Mar. 2021 – Sep. 2021) Department of Mechanical and Energy Engineering, SUSTech, China. Engineer (Jan. 2019 – Mar. 2021) Materials Laboratory of Songshan Lake, Institute of Physics, Chinese Academy of Sciences, China.

Awards & Scholarships:

2023 National Scholarship for Ph.D. Students2023 Outstanding Graduate Student Model, SUSTech2023 Academic Star, SUSTech2022 Academic Star, SUSTech

Research Interests:

Key materials for secondary batteries (Lithium/Zinc metal anodes, solid-state electrolytes, high-energy-density silicon-carbon anodes).Advanced electrochemical characterizations (in-situ XRD, Raman, TEM, Aberration-Corrected EM, Cryo-EM). 

Publication  Top Notes

Graphene/MoS2/FeCoNi(OH)x and Graphene/MoS2/FeCoNiPx multilayer-stacked vertical nanosheets on carbon fibers for highly efficient overall water splitting

Authors: X. Ji, Y. Lin, J. Zeng, Z. Ren, Z. Lin, Y. Mu, Y. Qiu, J. Yu

Journal: Nature Communications, 2021

DOI: 10.1038/s41467-021-21735-3

Summary: This study presents the synthesis of vertical nanosheets composed of graphene, MoS2, and FeCoNi hydroxides/phosphides on carbon fibers. The engineered structure exhibits high catalytic activity for overall water splitting due to enhanced charge transfer properties and effective electrocatalytic performance.

2. A flexible, electrochromic, rechargeable Zn//PPy battery with a short circuit chromatic warning function

Authors: J. Wang, J. Liu, M. Hu, J. Zeng, Y. Mu, Y. Guo, J. Yu, X. Ma, Y. Qiu, Y. Huang

Journal: Journal of Materials Chemistry A, 2018

DOI: 10.1039/C8TA03155A

Summary: The research introduces a flexible Zn/PPy (polypyrrole) battery that features an electrochromic property allowing for a visual warning in case of a short circuit. This advancement improves battery safety and usability while maintaining high electrochemical performance.

3. 3D hierarchical graphene matrices enable stable Zn anodes for aqueous Zn batteries

Authors: Y. Mu, Z. Li, B. Wu, H. Huang, F. Wu, Y. Chu, L. Zou, M. Yang, J. He, L. Ye

Journal: Nature Communications, 2023

DOI: 10.1038/s41467-023-41448-0

Summary: This paper discusses the development of 3D hierarchical graphene matrices that significantly improve the stability of Zn anodes in aqueous Zn batteries, addressing issues of dendrite formation and enhancing cycling performance.

4. Growing vertical graphene sheets on natural graphite for fast charging lithium-ion batteries

Authors: Y. Mu, M. Han, J. Li, J. Liang, J. Yu

Journal: Carbon, 2021

DOI: 10.1016/j.carbon.2021.03.045

Summary: The authors present a method for growing vertical graphene sheets on natural graphite, which enhances the fast charging capability of lithium-ion batteries. The novel structure aids in improved lithium ion transport and cycling stability.

5. Nitrogen, oxygen‐codoped vertical graphene arrays coated 3D flexible carbon nanofibers with high silicon content as an ultrastable anode for superior lithium storage

Authors: Y. Mu, M. Han, B. Wu, Y. Wang, Z. Li, J. Li, Z. Li, S. Wang, J. Wan, L. Zeng

Journal: Advanced Science, 2022

DOI: 10.1002/advs.202104685

Summary: This study explores a novel anode design combining nitrogen and oxygen-doped vertical graphene arrays with high silicon content, resulting in improved lithium storage performance and stability.

6. Vertical graphene growth on uniformly dispersed sub-nanoscale SiO x/N-doped carbon composite microspheres with a 3D conductive network

Authors: M. Han, Y. Mu, F. Yuan, J. Liang, T. Jiang, X. Bai, J. Yu

Journal: Journal of Materials Chemistry A, 2020

DOI: 10.1039/C9TA12253F

Summary: The paper details the growth of vertical graphene on a novel composite microsphere structure, achieving enhanced conductivity and mechanical stability suitable for energy storage applications.

7. High zinc utilization aqueous zinc ion batteries enabled by 3D printed graphene arrays

Authors: B. Wu, B. Guo, Y. Chen, Y. Mu, H. Qu, M. Lin, J. Bai, T. Zhao, L. Zeng

Journal: Energy Storage Materials, 2023

DOI: 10.1016/j.ensm.2023.01.001

Summary: The authors report on a 3D printing technique to create graphene arrays, significantly improving zinc utilization in aqueous zinc-ion batteries while ensuring long-term cycling stability.

8. Growth of flexible and porous surface layers of vertical graphene sheets for accommodating huge volume change of silicon in lithium-ion battery anodes

Authors: M. Han, Z. Lin, X. Ji, Y. Mu, J. Li, J. Yu

Journal: Materials Today Energy, 2020

DOI: 10.1016/j.mten.2020.100445

Summary: This research focuses on creating flexible, porous vertical graphene layers that effectively manage the volume changes of silicon during cycling in lithium-ion batteries, thereby enhancing the durability of anodes.

9. Reconstruction of thiospinel to active sites and spin channels for water oxidation

Authors: T. Wu, Y. Sun, X. Ren, J. Wang, J. Song, Y. Pan, Y. Mu, J. Zhang, Q. Cheng, …

Journal: Advanced Materials, 2023

DOI: 10.1002/adma.202207041

Summary: This study investigates the transformation of thiospinel compounds into active sites for efficient water oxidation, contributing to advancements in photocatalytic water splitting technologies.

10. Oriented construction of efficient intrinsic proton transport pathways in MOF-808

Authors: X.M. Li, Y. Wang, Y. Mu, J. Gao, L. Zeng

Journal: Journal of Materials Chemistry A, 2022

DOI: 10.1039/D2TA02878K

Summary: This paper presents a method for constructing proton transport pathways in metal-organic frameworks (MOF-808), enhancing their efficiency in proton conduction applications.

11. Thermodynamically Stable Dual‐Modified LiF&FeF3 layer Empowering Ni‐Rich Cathodes with Superior Cyclabilities

Authors: Y. Chu, Y. Mu, L. Zou, Y. Hu, J. Cheng, B. Wu, M. Han, S. Xi, Q. Zhang, L. Zeng

Journal: Advanced Materials, 2023

DOI: 10.1002/adma.202212308

Summary: This research investigates a dual-modification approach to improve the stability and cyclability of Ni-rich cathodes, critical for advancing lithium-ion battery performance.

12. Flexible electrospun carbon nanofibers/silicone composite films for electromagnetic interference shielding, electrothermal and photothermal applications

Authors: Z. Li, Z. Lin, M. Han, Y. Mu, P. Yu, Y. Zhang, J. Yu

Journal: Chemical Engineering Journal, 2021

DOI: 10.1016/j.cej.2020.129826

Summary: The authors develop flexible composite films from electrospun carbon nanofibers and silicone, showcasing effective electromagnetic interference shielding and promising applications in electrothermal and photothermal technologies.

13. Recent advances in the anode catalyst layer for proton exchange membrane fuel cells

Authors: Z. Li, Y. Wang, Y. Mu, B. Wu, Y. Jiang, L. Zeng, T. Zhao

Journal: Renewable and Sustainable Energy Reviews, 2023

DOI: 10.1016/j.rser.2023.113182

Summary: This review summarizes recent advancements in anode catalyst layers for proton exchange membrane fuel cells, highlighting the materials and strategies that enhance performance.

14. High yield production of 3D graphene powders by thermal chemical vapor deposition and application as highly efficient conductive additive of lithium ion battery electrodes

Authors: X. Ji, Y. Mu, J. Liang, T. Jiang, J. Zeng, Z. Lin, Y. Lin, J. Yu

Journal: Carbon, 2021

DOI: 10.1016/j.carbon.2021.01.059

Summary: The authors present a method for producing 3D graphene powders via thermal chemical vapor deposition, which serve as highly efficient conductive additives in lithium-ion battery electrodes, enhancing electrochemical performance.

 

Joy Chen | Political Science | Best Researcher Award

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Dr. Renmin University of China China

Joy Chen is an Assistant Professor of Economics at Renmin University of China, specializing in political economy, institutions, economic history, and contemporary Chinese economy. She holds a Ph.D. in Economics from Stanford University and a B.Comm. in Economics and B.S. in Mathematics and Statistics from the University of Melbourne. Her research, widely published in top journals like the American Journal of Political Science and Journal of Economic History, explores state-building, elite compensation, and bureaucratization in historical China. She has received numerous awards, including the ASEAN Business Research Initiative Grant and the SIEPR Dissertation Fellowship. Chen is bilingual in Chinese and English and proficient in programming languages such as Python and STATA.

 

Professional Profiles:

google Scholar

🎓 Education

Stanford University
Ph.D. in Economics, 2013—2019
Committee: Avner Greif (chair), James Fearon, Saumitra Jha, Avidit AcharyaUniversity of Melbourne
B.Comm. in Economics (with Honours), 2012
B.S. in Mathematics and Statistics, 2011

💼 Current Employment

Renmin University of China, School of EconomicsAssistant Professor of Economics, Feb 2024—Present

💼 Previous Employment

Cheung Kong Graduate School of Business
Assistant Professor of Economics, July 2019—Jan 2024

📚 Research Area

Political economy, institutions, economic history, contemporary Chinese economy

ers & Work in Progress

Industrial Policy in a New Era: Government Venture Capital in the U.S.-China Trade War (with Robin K. Gong and Jinlin Li)State-Building or State-Weakening? The Consequences of Military Control in Medieval China (with Erik H. Wang)Political Elites and Human Capital Formation in Pre-Imperial ChinaMatriarch for the Patriarch: Female Regency and Political Stability in Historical China (with Reed Lei and Xiuyu Li)

📚 Teaching

Renmin University of China 2024—
Economic History (Early and Medieval China) (Graduate)Cheung Kong Graduate School of Business 2020–2024
Mechanisms of Organizational Governance: Historical Bureaucracies and Modern Firms (MBA)Stanford University Teaching Assistant Fall 2015–Spring 2017
Economic Analysis I (Undergraduate; Winter 2016, Spring 2017)
Economic Development: A Historical Perspective (Undergraduate; Spring 2016)
Economic Analysis III (Undergraduate; Fall 2015)

🏆 Honors and Awards

ASEAN Business Research Initiative Grant, 2022SIEPR Dissertation Fellowship, Stanford Institute for Economic Policy and Research, 2018Best Paper Award, the 6th International Symposium of Quantitative History, 2018Pre-Doctoral Fellowship, Stanford Center at Peking University, 2016Bradley Graduate Fellowship, Stanford Institute for Economic Policy and Research, 2016Stanford Graduate Fellowship, Department of Economics, Stanford University, 2013–2014Melbourne National Scholarship, University of Melbourne, 2009–2011Australian Student Prize, Australian Federal Government, 2009

🎤 Seminar and Conference Presentations

2024: EHS Annual Conference (scheduled); 10th International Symposium on Quantitative History (scheduled)2023: Peking University, National School of Development; Shanghai Jiao Tong University; East China University of Political Science and Law; Workshop on Political Economy and Governance (PKU); University of Auckland; China Political Science Speaker Series; Workshop on Historical State and Governance (Renmin); ABRI Research Conference (CKGSB-SMU); Peking University, Center for Social Research; Cliometrics Workshop (Tsinghua)2022: Quantitative History Webinar; SIOE Annual Meeting; Conference on Mechanism and Institution Design; World Economic History Congress; Cliometrics Workshop (PKU)2021: Peking University, School of Economics; Monash University; CEPR Economic History Workshop; 8th International Symposium on Quantitative History; China-Europe International Business School; Jinan University; 8th Australasian Cliometrics Workshop2020: UC San Diego; Japanese Empirical Economics Seminar2019: Edgeworth Economics; CKGSB; Peking University, National School of Development; EHA Annual Meeting2018: 6th International Symposium on Quantitative History; Tsinghua University; Fudan University; Shanghai University of Finance and Economics; East China Normal University

✍️ Refereeing Activities

AEJ: Economic Policy, American Political Science Review, Asia-Pacific Economic History Review, Explorations in Economic History, Journal of Comparative Economics, Journal of Economic Behavior and Organizations, Journal of Economic History, Journal of Government and Economics, Journal of Institutional and Theoretical Economics, Oxford Economic Papers

Joy Chen for the Best Researcher Award

Strengths for the Award:

  1. Impressive Academic Background: Joy Chen holds a Ph.D. in Economics from Stanford University, a leading institution globally, demonstrating her solid academic foundation. Her education, guided by notable scholars like Avner Greif, positions her well in the field of political economy.
  2. Research Excellence and Publications: Joy has published several impactful papers in prestigious journals such as the American Journal of Political Science and the Journal of Economic History. Her research on state formation, bureaucratization, and the economic history of China has been recognized, with one of her papers winning the Best Paper Award at the 6th International Symposium of Quantitative History. This highlights her ability to produce high-quality, influential research.
  3. Diverse Research Areas: Her work spans various critical areas, including political economy, economic history, and contemporary Chinese economy, with a specific focus on state-building, political elites, and the impact of government policies. This multidisciplinary approach adds depth to her research and increases its relevance across different fields.
  4. Active Engagement in Academic Community: Joy Chen actively participates in seminars and conferences worldwide, presenting her work at top institutions and international symposia. This engagement not only showcases her research but also contributes to the global academic discourse.
  5. Bilingual Proficiency and Technical Skills: Fluent in both Chinese and English, Joy can effectively communicate her research to a global audience. Her proficiency in programming languages like Python, STATA, and MATLAB further enhances her research capabilities, allowing for sophisticated data analysis and modeling.

Areas for Improvement:

  1. Broaden Research Impact: While her work has been recognized in specific academic circles, there is potential for Joy to increase the societal impact of her research. This could involve translating her findings into policy recommendations or collaborating with policymakers to ensure her research informs real-world decisions.
  2. Expand International Collaboration: Joy could further her impact by collaborating more extensively with international researchers. While she has participated in global conferences, forming research partnerships across different regions could bring new perspectives and further diversify her work.
  3. Visibility in Public Discourse: Increasing her presence in public and policy discussions through media contributions, op-eds, or public lectures could enhance her visibility and the real-world application of her research.

 

✍️Publications Top Note :

Riding Out the COVID-19 Storm: How Government Policies Affect SMEs in China
Authors: J. Chen, Z. Cheng, R.K. Gong, J. Li
Journal: China Economic Review, Vol. 75, 2022, Article 101831
Citations: 65

Media Attention and Choice of Major: Evidence from Anti-Doctor Violence in China
Authors: S. Bo, J. Chen, Y. Song, S. Zhou
Journal: Journal of Economic Behavior & Organization, Vol. 170, 2020, pp. 1-19
Citations: 19

From Powerholders to Stakeholders: State-Building with Elite Compensation in Early Medieval China
Authors: J. Chen, E.H. Wang, X. Zhang
Journal: American Journal of Political Science, 2023
Citations: 13* (conditionally accepted)

State Formation and Bureaucratization: Evidence from Pre-Imperial China
Author: J. Chen
Journal: Journal of Economic History, 2023
Citations: 6

Political Elites and Human Capital Formation in Pre-Imperial China
Author: J. Chen
*Available at SSRN, 2024
Citations: 2

Industrial Policy in a New Era: Government Venture Capital in the U.S.-China Trade War
Authors: J. Chen, R.K. Gong, J. Li
Available at SSRN, 2022
Citations: 1

State-Building or State-Weakening? The Consequences of Military Control in Medieval China
Authors: J. Chen, E.H. Wang
*Available at SSRN, 2024
Citations: N/A

Mate Preferences and House Prices in China: Evidence from Online Mate Search
Authors: J. Chen, S. Liu
Year: 2018

The Economic History of China: From Antiquity to the Nineteenth Century by Richard von Glahn
Authors: Y.J. Chen, A. Greif
Journal: Harvard Journal of Asiatic Studies, Vol. 78, No. 2, 2018, pp. 576-585

Conclusion:

Joy Chen is a strong candidate for the Best Researcher Award, given her significant contributions to political economy and economic history, particularly regarding China. Her academic background, research output, and active participation in the academic community demonstrate her potential for continued impact. By broadening her research impact and increasing international collaboration, she could further elevate her standing as a leading researcher in her field

Hakki Goker Onen | Political Economy | Best Researcher Award

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Assoc Prof Dr. Hakki Goker Onen | Political Economy | Best Researcher Award

Assoc Prof Dr. Ondokuzmayıs University, Turkey

Hakkı Göker Önen, an Associate Professor born on 30.11.1983, holds a PhD from the University of Bath. He is currently affiliated with Samsun Ondokuz Mayıs University. Önen’s academic journey includes a BA in Political Science and International Relations from Yeditepe University and a postgraduate degree in European Union studies from Galatasaray University. His research focuses on civil-military relations, military culture, and secularism in Turkey. Önen has published books, numerous articles in reputable journals, and contributed to book chapters. He has also presented at international conferences and edited symposium proceedings. His notable works include studies on Turkish military culture and the impact of the state of emergency on military prowess.

 

Professional Profiles:

Scopus

🎓 Education

📜 PhD: University of Bath, Politics, Languages, and International Studies (2012-2016)
Thesis: Crossing Identities and the Turkish Military: Revolutionists, Guardians, and Depoliticals📘 Post-Graduation: Galatasaray University, European Union (2008-2010)🎓 Graduation: Yeditepe University, Political Science and International Relations (2002-2006)

📝 Conference Papers

Egyptian Military Culture and Civil-Military Relations in Egypt’, İstanbul Gelişim Ünivesitesi IV. Uluslararası Orta Doğu Sempozyumu Bildiri Kitabı, İGÜ Yayınları, 2018. ‘Mahmoud Muhammad Taha and His Legacy of the Reconstruction of Religious Thought in Islam’, V. Uluslararası Orta Doğu Sempozyumu: Orta Doğu’da Tarih ve Kimliği Yeniden Okumak, İGÜ Yayınları, 2019. ‘Reconsidering Turkish Military Culture and Secularism after the Coup Attempt’, Open Democracy, 4.04.2017Hakkı Göker Önen and David Galbreath, ‘Turkey’s Democracy Crisis’, International Policy Digest, 04.25.2017.

📚 Book Chapters

‘Finansal Krizlerin Siyasal Etkileri’, Multi Disipliner Yaklaşımla Kriz Olgusu Cilt: 1, Genel Dağıtım Akademisyen Kitabevi A.Ş. 2019, s.169-185.‘Necip Asım Yazıksız: Hayatı ve Türk Milliyetçiliğine Etkisi’, Türk Milliyetçiliğinden Portreler, A Kitap, 2019.‘Türk Siyasal Kültüründe

Hakkı Göker Önen: A Suitable Candidate for the Best Researcher Award

Strengths for the Award

1. Extensive Academic Background and Research Experience: Hakkı Göker Önen has a solid academic foundation with degrees from prestigious institutions. His PhD research at the University of Bath is a notable contribution to the field of political science and international studies. His thesis on Turkish military culture and political dynamics demonstrates his deep understanding and expertise in these areas.

2. Significant Publications: Önen has authored several books and numerous articles in respected journals. His works, such as “Crossing Identities and the Turkish Military” and “1908-1983 Arası Dönemde Türkiye’de Askeri Kültür ve Laiklik İlişkisi,” are critical contributions to the understanding of military culture and secularism in Turkey. His research is published in high-impact journals, further cementing his reputation as a leading scholar in his field.

3. Diverse Research Interests: His research spans various aspects of political science, including civil-military relations, the impact of military culture on political structures, and the intersection of secularism and military influence in Turkey. This diversity showcases his ability to tackle complex and multifaceted issues.

4. Recognition and Impact: His works have been cited extensively, indicating their influence and importance in the academic community. The breadth and depth of his research have significantly contributed to contemporary discussions on political and military dynamics in Turkey and beyond.

5. Active Participation in Conferences and Symposiums: Önen has presented his research at numerous national and international conferences, such as the Politics and International Relations Congress and the International Middle East Symposium. His active engagement in these platforms highlights his commitment to academic discourse and knowledge dissemination.

Areas for Improvement

1. Expanding Research Beyond Turkey: While Önen’s focus on Turkey is commendable, broadening his research to include comparative studies with other regions could enhance the global applicability of his findings. This expansion could offer new perspectives and increase the impact of his work on a broader scale.

2. Increased Collaboration: Engaging in more collaborative research projects with international scholars could bring diverse insights into his work. Collaborations often lead to innovative approaches and a richer understanding of complex issues.

3. Further Development of Quantitative Methods: Incorporating more quantitative research methods could complement his qualitative analyses, providing a more robust and comprehensive approach to his studies. This balance can enhance the credibility and generalizability of his research findings.

Conclusion

Hakkı Göker Önen’s extensive academic background, significant contributions to the field of political science, and active participation in scholarly discourse make him a strong candidate for the Best Researcher Award. His work has provided valuable insights into the relationship between military culture and political structures, particularly in the context of Turkey. By expanding his research scope and engaging in more collaborative and quantitative studies, he can further elevate his already impressive academic profile. Given his achievements and potential for future contributions, Önen is well-suited to receive recognition as a leading researcher in his field.

✍️Publications Top Note :

Crossing Identities and the Turkish Military

Author: Hakkı Göker Önen

Publisher: BWV Berliner-Wissenchaft, 2020

ISBN: 978-3-8305-5027-3

1908-1983 Arası Dönemde Türkiye’de Askeri Kültür ve Laiklik İlişkisi

Author: Hakkı Göker Önen

Publisher: Kriter, 2020

ISBN: 978-625-7130-83-7

Ten Critical Years of Turkish Civil–Military Relations (2007–2017)

Author: Hakkı Göker Önen

Journal: Journal of Public Affairs, 2022, 22(S1), e2738

Related documents: Link This link is disabled.

Citations: 1

Atatürk and Military Culture: What Atatürk Says About War, Soldiering, and Civil-Military Relations?

Author: Hakkı Göker Önen

Journal: Journal of Public Affairs, 2022, 22(3), e2491

Related documents: his link is disabled.

Citations: 1

Jiangwei Wen | Qufu Normal University | Best Researcher Award

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Prof. Jiangwei Wen | Qufu Normal University | Best Researcher Award

prof. Qufu Normal University , China

prof.  Jiangwei Wen is an Associate Professor at Qufu Normal University, with a Ph.D. in Organic Chemistry from Wuhan University (2015-2018) under Prof. Aiwen Lei and an M.S. in Analytical and Organic Chemistry from Qufu Normal University (2012-2015) under Profs. Wei Wei and Hua Wang. prof.  Jiangwei  completed Ph.D. co-training at the Center for Nanoscale Materials, Argonne National Laboratory, with Prof. Xiao-Min Lin. Their research focuses on new reaction methodologies, nano- and photo-electrocatalysis, C–H bond functionalization, radical chemistry, and flow chemistry. They have received funding from the National Natural Science Foundation of China and the Natural Science Foundation of Shandong Province.

 

Professional Profiles:

Orcid

scopus

🎓 Education

2015–2018: Ph.D. in Organic Chemistry, Wuhan University, China.
Advisor: Prof. Aiwen Lei2012–2015: M.S. in Analytical and Organic Chemistry, Qufu Normal University, China.
Advisors: Prof. Wei Wei, Prof. Hua Wang

💼 Experience

2018.07 – Present: Associate Professor, Qufu Normal University2017.03 – 2018.02: Ph.D. Co-training, Center for Nanoscale Materials (CNM), Argonne National Laboratory
Co-advisor: Prof. Xiao-Min Lin

🔬 Research Interests

Dr. [Name]’s research interests include:New reaction methodologiesNano- and photo-electrocatalysisC–H bond functionalizationRadical chemistryFlow chemistry

✍️Publications Top Note :

Electrooxidation-induced synthesis of 3-thio/selenophosphorylated imidazole: a potent pesticide with good biocompatibility
Green Chemistry, 2024
DOI: 10.1039/D3GC02727A
Contributors: Yonghong Yin; Jianjing Yang; Kelu Yan; Ting Zeng; Hongyan Lin; Jing Ling; Shibo Wang; Jiangwei Wen

Electrosynthesis of N/S-heterocycles
Green Chemistry, 2024
DOI: 10.1039/D4GC01595A
Contributors: Jiangwei Wen; Yonghong Yin; Kelu Yan; Bingwen Li; Ming-Zhong Zhang; Jianjing Yang

Photocatalytic decarboxylative phosphorylation of N-aryl glycines
Organic Chemistry Frontiers, 2024
DOI: 10.1039/D3QO01577G
Contributors: Jiangwei Wen; Xue Sun; Kelu Yan; Tingtao Yan; Zhen Liu; Yang Li; Jianjing Yang

HFIP‐Triggered Reduction Radical Coupling of Enamides with Alkynes Towards β‐Keto Alkylamides via H‐Bonding Electron Transfer
ChemCatChem, 2024-07-16
DOI: 10.1002/cctc.202400737
Contributors: Xingda Cheng; LuLu Zhao; Kelu Yan; Jianjing Yang; Lirong Xu; Jiangwei Wen

Chemoselective Synthesis of 3-Bromomethyloxindoles via Visible-Light-Induced Radical Cascade Bromocyclization of Alkenes
Organic Letters, 2024-05-10
DOI: 10.1021/acs.orglett.4c01105
Contributors: Ming-Zhong Zhang; Xin Yang; Jin-Xing Yin; Ya Deng; Hong-Ying Tan; Yu-Heng Bai; Ya-Lin Li; Jiangwei Wen; Tieqiao Chen

Application of Sulfoxonium Ylides or Iodonium Ylides in Rhodium‐Catalyzed Synthesis of Phenanthrenes
Advanced Synthesis & Catalysis, 2024-04-23
DOI: 10.1002/adsc.202301451
Contributors: Xiao Liu; Bingxin Zhou; Kelu Yan; Jiangwei Wen; Qiuyun Li; Xutong Wang; Xiu Wang

General Method to Introduce π-Electrons into Oxygen-Doped Porous Carbon Nitride for Photocatalytic Hydrogen Evolution and Toluene Oxidation
ACS Sustainable Chemistry & Engineering, 2024-01-15
DOI: 10.1021/acssuschemeng.3c06962
Contributors: Zongzhao Sun; Yueyang Tan; Xinkai Shi; Bingwen Li; Xinfang Wang; Jiangwei Wen; Limin Huang; Woon-Ming Lau

Base-promoted one-pot three-component desulphurization cross-coupling access to 4-cyanoimidazole
Chemical Communications, 2023
DOI: 10.1039/D3CC03058J
Contributors: Jiangwei Wen; Ting Zeng; Kelu Yan; Lulu Zhao; Shuyun Zhu; Jianjing Yang

Precise manipulation of electron transfers to enable the site-selective hydropyridylation of ynones
Organic Chemistry Frontiers, 2023
DOI: 10.1039/D2QO01664H
Contributors: Jing Ma; Jianjing Yang; Kelu Yan; Bingwen Li; Boju Luo; Meirou Jing; Yumeng Zhou; Ziling Wu; Laijin Tian; Jiangwei Wen

Synthesis of tetrasubstituted selenophenes by DBU-induced sequential three-component coupling and intramolecular cyclization
New Journal of Chemistry, 2023
DOI: 10.1039/D3NJ03720G
Contributors: Xiaoyu Wang; Kelu Yan; Jiangwei Wen; Qiuyun Li; Ke Ma; Wenlu Zhang; Wanhua Sun; Jianjing Yang

Electrochemical Silver-Catalyzed [2 + 2 + 1] Decarboxylation of N-Aryl Glycines with Azobenzenes Access to 1,2,4-Triazolidines
ACS Sustainable Chemistry & Engineering, 2023-11-27
DOI: 10.1021/acssuschemeng.3c04968
Contributors: Jiangwei Wen; Jing Ma; Kelu Yan; Xiaoxia Zhang; Kexin Huang; Lihua Wu; Dandan Li; Jianjing Yang

Controllable cross-coupling of thiophenols with dichloromethane mediated by consecutively paired electrolysis
Green Synthesis and Catalysis, 2023-02
DOI: 10.1016/j.gresc.2022.04.001
Contributors: Ting Zeng; Jianjing Yang; Kelu Yan; Wei Wei; Jiangwei Wen

Electrooxidation-induced selective cleavage of C–N bonds of tertiary amines to access thioureas, selenoureas, and 2-aminated benzoselenazoles
Organic Chemistry Frontiers, 2022
DOI: 10.1039/D2QO01394K
Contributors: Ting Zeng; Jianjing Yang; Kelu Yan; Shibo Wang; Shuyun Zhu; Xian-En Zhao; Dandan Li; Jiangwei Wen

Mr. Hassan Messaoudi | Applied mathematics | Best Researcher Award

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Mr. Hassan Messaoudi | Applied mathematics | Best Researcher Award

Mr. Hassan Messaoudi, University of Souk, Algeria

Mr. Hassan Messaoudi 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:

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General stability for piezoelectric beams with a nonlinear damping term

CITED BY
H. Messaoudi, S. Zitouni, H.E. Khochemane, A. Ardjouni

YEAR
2023

Well-posedness and general energy decay of solutions for a nonlinear damping piezoelectric beams system with thermal and magnetic effects

CITED BY
H. Messaoudi, A. Ardjouni, S. Zitouni, K.H. Eddine

YEAR
2023

Nonlinear damping piezoelectric beams with past history, thermal and magnetic effects

CITED BY
H. Messaoudi, A. Ardjouni, S. Zitouni, H.E. Khochemane

YEAR
2024

Existence and Uniqueness of Solutions for Time-Fractional Oldroyd-B Fluid Equations with Generalized Fractional Derivatives

CITED BY
H. Messaoudi, A. Ardjouni, S. Zitouni

YEAR
2024

Well-posedness and general energy decay for a nonlinear piezoelectric beams system with magnetic and thermal effects in the presence of distributed delay

CITED BY
H. Messaoudi, M. Douib, S. Zitouni

YEAR
2024

General stability for a Timoshenko-type system with a nonlinear damping term.

CITED BY
H. Messaoudi, S. Zitouni, A. Ardjouni, H.E. Khochemane

YEAR
2023

General stability for a nonlinear damping transmission problem.

CITED BY
H. Messaoudi, A. Ardjouni, S. Zitouni, H.E. Khochemane

YEAR
2023

GENERAL STABILITY FOR MOORE GIBSON THOMPSON PROBLEM WITH A NONLINEAR DAMPING TERM

CITED BY
H. Messaoudi

YEAR
General Conference Chair: Dr. Rebiha Benterki Organizing Committee Members, 48

Prof. Joshua Kibet | Chemistry Award | Best Researcher Award

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Prof. Joshua Kibet | Chemistry Award | Best Researcher Award

Prof. Joshua Kibet, Egerton University, Kenya

Prof. Joshua Kibet 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

Orcid

Biography:

Joshua Kiprotich Kibet, an accomplished scholar, hails from Egerton University, Kenya. With a rich educational background spanning across prestigious institutions like Louisiana State University and Moi University, Kibet holds a Ph.D. in Chemistry and possesses a wealth of expertise in analytical chemistry and environmental impact assessment.

🌟 Pioneering Achievements:

Throughout his illustrious career, Kibet’s contributions to the field of mechanics have been nothing short of groundbreaking. His research endeavors have focused on the production, extraction, and characterization of soluble polysaccharides from Chlorella vulgaris, unraveling their applications in AgNPs biosynthesis and plant biostimulation. Kibet’s innovative work has not only advanced our understanding of sustainable biodegradable bioplastics but has also paved the way for eco-friendly solutions in materials science.

🌍 Community Impact:

As an Associate Professor and Associate Dean at Egerton University, Kibet has tirelessly dedicated himself to fostering academic excellence and nurturing the next generation of scientists. His leadership roles extend beyond academia, as evidenced by his involvement in various professional capacities such as editorial board memberships, program coordination, and contributions to regional research initiatives. Kibet’s commitment to environmental stewardship is further underscored by his active participation in seminars and conferences focused on scientific communication, curriculum review, and sustainable development.

🏅 Awards and Recognition:

Kibet’s stellar contributions have earned him prestigious honors, including research grants from renowned institutions like the National Research Fund and the National Commission for Science, Technology & Innovation. His exemplary service as an educator and researcher has been acknowledged through numerous accolades, reaffirming his status as a pioneer in the field of chemistry.

🔬 Vision for the Future:

With an unwavering passion for advancing scientific knowledge and addressing pressing environmental challenges, Joshua Kiprotich Kibet continues to inspire and empower individuals worldwide. His visionary leadership and groundbreaking research serve as a beacon of hope for a sustainable and prosperous future.

📊 Citation Metrics (Google Scholar):

Citations by: All – 1065, Since 2019 – 858
h-index: All – 17, Since 2018 – 15
i10 index: All – 23, Since 2018 –22

📖 Publications  Top Note :

Molecular products and radicals from pyrolysis of lignin

paper publication in

paper publication in

The assessment of water quality in river Molo water basin, Kenya

paper publication in

Phenols from pyrolysis and co-pyrolysis of tobacco biomass components

paper publication in

The state of water quality in Nairobi River, Kenya

paper publication in

A theoretical investigation of the effect of the hole and electron transport materials on the performance of a lead-free perovskite solar cell based on CH3NH3SnI3

paper publication in

Molecular products from the thermal degradation of glutamic acid

paper publication in

Molecular products from the pyrolysis and oxidative pyrolysis of tyrosine

paper publication in

A review of tobacco abuse and its epidemiological consequences

paper publication in

 

Elasticity

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Instructions of Elasticity:

Elasticity of Mechanics is a fascinating field of study that delves into the behavior of materials when subjected to various forces. Here are 5 suitable subtopics in elasticity of mechanics along with brief descriptions and related emojis:
Stress-Strain Analysis:
Understanding how materials respond to applied forces, examining the relationship between stress (force) and strain (deformation), and analyzing stress distribution in structures.
Elastic Behavior in Materials :
Investigating how different materials exhibit elastic properties, including Young’s Modulus, Shear Modulus, and Poisson’s Ratio, to predict their response to mechanical loads.
Finite Element Analysis (FEA):
Employing computational techniques to simulate complex structural behavior under varying conditions, aiding in the design and optimization of mechanical systems.
Hooke’s Law and Beyond:
Exploring the fundamental principles of elasticity through Hooke’s Law and extending the understanding to nonlinear elasticity, where materials behave differently under higher stress levels.
Elasticity in Biomechanics :
Applying elasticity principles to the study of biological tissues and understanding their behavior in response to mechanical loads, crucial in fields such as orthopedics and sports biomechanics.

Structural Health Monitoring

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Engage in cutting-edge research in structural health monitoring to develop innovative techniques and technologies for evaluating the condition and safety of structures.
Leverage state-of-the-art sensors, data analysis tools, and predictive modeling to monitor and assess the health of various types of infrastructure.
Collaborate with experts in civil engineering, materials science, and sensor technology to advance the field of SHM.

Apply your research to enhance the resilience and longevity of critical infrastructure, including bridges, buildings, and dams.
Share your research findings through publications, conferences, and partnerships to contribute to the continued growth and practical applications of SHM.

Fiber Optic Sensing in SHM : Explore the use of fiber optic sensors for real-time monitoring of structural parameters like strain, temperature, and deformation.

Machine Learning for Damage Detection:
Investigate the application of machine learning algorithms to analyze sensor data and detect early signs of structural damage, improving predictive maintenance.
.
Resilience-Based Design and SHM  :
Study how SHM can inform the design and retrofitting of structures to enhance their resilience to natural disasters, such as earthquakes and hurricanes.
Fiber Optic Sensing in SHM:
Study the application of thermoelectric devices in recovering waste heat from industrial processes for sustainable energy generation.

Plasticity

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Introduction of Plasticity:

Plasticity of Mechanics is a fascinating branch of mechanics that explores how materials deform and behave when subjected to loads beyond their elastic limit. It involves the study of permanent deformation, flow, and change in shape without fracturing
Strain Hardening Phenomenon:
 Investigating how materials become stronger and tougher as they undergo plastic deformation, often represented by stress-strain curves with distinctive rises.
.
Plasticity Modeling and Simulation :
Developing mathematical models and computational tools to predict and analyze plastic deformation in various materials and structures, aiding in design and analysis.
Creep and Stress Relaxation :
Exploring the long-term deformation behavior of materials under constant stress (creep) and the gradual reduction in stress over time (stress relaxation) with temperature-dependent properties.
Plasticity in Metal Forming:
Understanding how plasticity mechanics play a pivotal role in shaping processes like forging, rolling, extrusion, and stamping of metals, optimizing manufacturing processes.
Plasticity in Geotechnical Engineering :
Examining how soil and rock materials undergo plastic deformation under loads, vital in geotechnical engineering for foundation design, slope stability, and excavation planning.