Huali Sun | Government-Enterprise Cooperation | Best Researcher Award

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Prof. Huali Sun | Government-Enterprise Cooperation | Best Researcher Award

Prof. Huali Sun | Shanghai University | China

Professor Huali Sun is a distinguished academic at the School of Management, Shanghai University, where he also serves as a PhD supervisor. He earned his PhD in Control Theory and Control Engineering from Shanghai Jiao Tong University and was a senior visiting scholar at the University of Missouri, USA in 2014. With a career marked by academic excellence and public service, he has significantly contributed to research, teaching, and policy consulting. He has led and participated in numerous national and provincial-level research projects and authored over 80 peer-reviewed publications. Beyond academia, his work has influenced real-world decision-making in government agencies. He is recognized for his commitment to education, student mentorship, and public service. Professor Sun continues to be a pillar in the development of emergency logistics, management operations research, and sustainable systems in China.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. Extensive Research Portfolio

    • Over 80 publications in high-impact SCI/SSCI and Class A journals.

    • Topics span robust optimization, emergency logistics, carbon efficiency, and supply chain management—relevant, impactful, and interdisciplinary.

  2. Strong Leadership in Research Projects

    • Led 3 National Natural Science Foundation projects and several provincial-level projects.

    • Contributed to a major National Social Science Foundation project and numerous strategic soft science initiatives.

  3. Policy Influence & Practical Impact

    • Authored 10+ decision-making consultation reports adopted by central and municipal governments, including direct national-level recognition.

  4. Educational Contributions

    • Supervised 80+ postgraduates, with several receiving top national and university-level awards.

    • Recognized as an Excellent Full-time Tutor and Outstanding Party Member.

  5. Case-Based Research Contributions

    • Authored 2 nationally recognized management cases, showcasing the application of research to real-world managerial contexts.

  6. International Exposure

    • Completed a senior visiting scholar program in the U.S., contributing to his global research perspective and collaboration potential.

🔍 Areas for Improvement:

  1. Greater International Collaboration

    • While he has U.S. academic exposure, co-authored research with global collaborators or institutions could enhance visibility and international citation impact.

  2. Increased Public Engagement

    • Public communication of complex research (e.g., media, open lectures, or policy briefs) could further amplify his influence beyond academia.

  3. Diversification of Publication Outlets

    • A broader mix of outlets in applied and interdisciplinary journals could position his work at the intersection of policy and practice more strongly.

  4. Citation Metrics

    • Some recent publications have low or zero citations, which is common for new works but requires strategic dissemination to improve impact metrics.

🎓 Education:

Professor Huali Sun received his PhD in Control Theory and Control Engineering from Shanghai Jiao Tong University, one of China’s most prestigious technical institutions. His academic training provided him with a strong foundation in systems engineering, optimization, and control-based problem-solving. In 2014, he enhanced his global perspective through an international research tenure as a senior visiting scholar at the University of Missouri, USA. This exposure allowed him to merge Eastern and Western perspectives in management science and systems theory. His early academic pursuits focused on engineering applications, which later expanded to management science and logistics optimization. Through continual learning and collaborative research, Professor Sun has maintained academic rigor and interdisciplinary relevance in both control engineering and managerial sciences.

💼 Experience:

Currently a Professor and PhD Supervisor at the School of Management, Shanghai University, Huali Sun has an extensive track record in academia and applied research. He has hosted three National Natural Science Foundation projects and contributed as a core member to multiple other national and provincial-level research initiatives. His project involvement includes significant soft science research commissioned by the Shanghai Municipal Science and Technology Commission, and innovation plans backed by the Ministry of Education. In the classroom, he has been a recognized full-time tutor and mentor for both undergraduates and postgraduates, guiding over 80 students, many of whom have achieved top honors. His dual roles as an educator and researcher make him a vital asset in advancing practical and theoretical knowledge in management and operations research.

🔬 Research Focus:

Professor Sun specializes in emergency logistics, distributionally robust optimization, disruption risk management, and environmental efficiency within transportation systems. His interdisciplinary research bridges systems engineering, operations research, and management science. He has developed robust, multi-period models for emergency logistics networks and explored sustainability and carbon emissions in transportation. His interest in pre-positioning strategies, joint road restoration, and location-routing optimization addresses real-world challenges in disaster response and public infrastructure resilience. His publications in SCI/SSCI international journals and Chinese Class A journals contribute to both global and local academic dialogues. His work often translates into actionable policy suggestions, making it valuable to both scholars and policymakers.

📚 Publications Top Notes:

  • 📦 Distributionally robust pre-positioning strategies for relief supplies with two ordering opportunitiesInternational Journal of Production Economics, 2025

  • 🚧 Robust optimization of joint road restoration and emergency location-routingSystems Engineering Theory and Practice, 2023

  • 🌿 Analysis of transportation CO₂ emission efficiency in the Yangtze River Economic Belt in ChinaMaritime Policy and Management, 2024

  • ⚠️ A robust and multi-period model for an emergency logistics network considering the risk of disruptionsRAIRO Operations Research, 2025

📝 Conclusion:

Professor Huali Sun is a highly qualified and deserving candidate for the Best Researcher Award, particularly due to his:

  • Strong track record in academic publishing,

  • Proven impact on government decision-making,

  • Nationally recognized teaching and mentorship,

  • Leadership in critical and socially relevant research areas.

His profile reflects well-rounded excellence in research, education, and service, making him an exemplary figure in the Chinese academic community and a worthy recipient of the award. Minor improvements in international outreach and citation growth could further elevate his global academic influence.

 

Huali Sun | HR Business Partnering | Best Researcher Award

Published on by Human Resources Management

Prof. Huali Sun | HR Business Partnering | Best Researcher Award

Prof. Huali Sun, Shanghai University, China

Professor Huali Sun is a distinguished academic and PhD Supervisor at the School of Management, Shanghai University. With over a decade of contribution to operations research, logistics, and decision sciences, he brings significant interdisciplinary expertise. Dr. Sun earned his PhD in Control Theory and Control Engineering from Shanghai Jiao Tong University and enhanced his academic profile as a senior visiting scholar at the University of Missouri, USA, in 2014. Recognized for his excellence in teaching and service, he received accolades including “Outstanding Party Member” (2016) and “Excellent Full-time Tutor” (2021, 2022). His leadership in numerous national and provincial projects, robust publication record with over 80 SCI/SSCI papers, and influence on policy consultation reflect his commitment to impactful research. Prof. Sun is also an author and editor, contributing textbooks and national-level management cases, bridging theory and practice for future business and policy leaders.

Publication Profile: 

Scopus

✅ Strengths for the Award:

  1. 🌍 Significant Research Output

    • Over 80 publications in top-tier SCI/SSCI journals and Class A Chinese journals (e.g., International Journal of Production Economics, Transportation Research Part E, Systems Engineering Theory and Practice).

    • Demonstrates academic excellence and consistent contributions to fields like operations research, logistics, and decision sciences.

  2. 📊 Proven Project Leadership

    • Led 3 National Natural Science Foundation projects and participated in numerous provincial and ministerial-level projects.

    • Recognized for securing competitive funding from major agencies, reflecting strong research capability and national relevance.

  3. 🎯 Real-World Impact

    • Authored 10+ decision-making reports used by central and municipal departments.

    • Received 1 instruction from national leaders and 4 from provincial leaders, proving direct policy-level influence.

  4. 🎓 Exceptional Mentorship

    • Supervised 80+ postgraduate students, many of whom earned prestigious awards like National Scholarships and “Outstanding Graduate” honors.

    • Strong mentorship pipeline supports sustainability of research excellence.

  5. 📚 Academic Contributions Beyond Papers

    • Authored 1 monograph, co-edited 1 textbook, and wrote national-level management cases, contributing to both academic knowledge and teaching pedagogy.

    • Cases selected for the 9th National Hundred Excellent Management Cases and the 2025 China International Case Library, indicating high educational and applied value.

  6. 🌐 International Exposure

    • Experience as a senior visiting scholar at the University of Missouri (USA) in 2014 demonstrates global academic engagement.

🔍 Areas for Improvement:

  1. 🌐 Strengthen International Collaboration

    • While international exposure exists, increasing joint publications and global co-authorships could enhance international recognition and cross-border impact.

  2. 📢 Broaden Outreach and Visibility

    • Engaging in science communication, speaking at international forums, and participating in global academic networks could improve public engagement and global academic influence.

  3. 💡 Emerging Tech Integration

    • Incorporating AI, big data, or digital transformation into future research in logistics and management could align with cutting-edge global trends and funding priorities.

🎓 Education:

Huali Sun completed his PhD in Control Theory and Control Engineering at Shanghai Jiao Tong University, one of China’s premier research institutions. His academic training equipped him with strong analytical and systems-thinking capabilities, foundational to his later research in logistics, operations research, and decision-making models. In 2014, he expanded his international perspective as a senior visiting scholar at the University of Missouri, USA, where he engaged with global academic standards and collaborative research methodologies. His educational background, deeply rooted in systems engineering and control, allows him to tackle complex problems in transportation, logistics, and production systems. Over the years, Prof. Sun has continued his academic evolution, integrating his engineering background with social sciences and management, becoming a multidisciplinary leader in research and higher education.

🧑‍🏫 Experience:

Prof. Huali Sun has served as a Professor and PhD Supervisor at the School of Management, Shanghai University, mentoring over 80 postgraduate students, many of whom received national and municipal honors. His experience includes hosting and participating in more than 10 national and provincial-level projects, with funding from prestigious bodies such as the National Natural Science Foundation of China and Shanghai Municipal Science and Technology Commission. He has published in top-tier journals and authored influential decision-making reports adopted by central and provincial governments, even receiving instructions from national leaders. He also contributes to curriculum development through textbooks and national management case writing. His leadership spans across academic administration, case writing, applied research, and student development, making him a multi-faceted academic deeply engaged in research, education, and societal service.

🔬 Research Focus:

Prof. Huali Sun’s research lies at the intersection of operations research, logistics optimization, and sustainable decision-making. He specializes in robust and multi-period modeling, focusing on emergency logistics, CO₂ emission efficiency, and location-routing under uncertainty. His work often balances economic and environmental goals, particularly in perishable goods supply chains and transportation systems. Prof. Sun is a thought leader in risk-resilient systems, developing frameworks that guide governments and industries in disaster response and infrastructure planning. Additionally, his research integrates quantitative modeling with policy impact, as evidenced by his widely adopted consultation reports. His commitment to interdisciplinary and application-driven research has contributed significantly to the theory and practice of management science, particularly in the Chinese context of rapid urban and industrial transformation.

📚 Publication Top Notes: 

  1. 📦 A robust and multi-period model for an emergency logistics network considering the risk of disruptionsRAIRO Operations Research, 2025

  2. 🌱 Analysis of transportation CO₂ emission efficiency in the Yangtze River Economic Belt in ChinaMaritime Policy and Management, 2024

  3. 🚧 Robust optimization of joint road restoration and emergency location-routingSystem Engineering Theory and Practice, 2023

  4. 🔄 Trade-offs between economic and environmental goals of production-inventory-routing problem for multiple perishable productsComputers and Industrial Engineering, 2023

🧾 Conclusion:

Prof. Huali Sun is highly suitable for the Best Researcher Award. His academic excellence, national research leadership, societal impact through policy consultation, and deep mentorship record distinguish him as a researcher with broad influence and sustainable impact. His work directly serves both academic advancement and real-world problem-solving, particularly in logistics, operations, and public systems.

RANJIT MORE | Diversity, Equity & Inclusion (DEI) | Best Research Article Award

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Assist. Prof. Dr. RANJIT MORE | Diversity, Equity & Inclusion (DEI) | Best Research Article Award

Assist. Prof. Dr. RANJIT MORE | Arts, Science and Commerce College, Indapur, India | India

Dr. Ranjit Mohan More is an Indian zoologist and academician dedicated to research in molecular phylogenetics, nutritional biology, and freshwater fish ecology. He hails from Varkute BK, Tal-Indapur, Pune, Maharashtra. A passionate field biologist, Dr. More has earned his Ph.D. in Zoology from Savitribai Phule Pune University in 2022, focusing on the nutritional profiling and molecular relationships of two native fish species from the Ujani Reservoir. With more than six years of teaching and research experience, he has held key academic positions, including Head of the Department of Microbiology. His work has been presented in national and international conferences, and he has authored several research papers in peer-reviewed journals. Dr. More is recognized for his persistence in aquatic biodiversity conservation, academic leadership, and collaborative scientific engagement. His scientific vision is rooted in ecological sustainability and advancing knowledge of India’s freshwater ecosystems.

Publication Profile:

Google Scholar

✅ Strengths for the Award:

  1. High-Impact Research Focus:
    Dr. More’s research on nutritional profiling and molecular phylogenetics of freshwater fish in the Ujani Reservoir addresses urgent ecological and biodiversity concerns relevant to Indian inland waters.

  2. Recent Peer-Reviewed Publications (2025):
    His 2025 article, “Demography of Two Fishes… Facing Multiple Threats,” published in Lakes & Reservoirs: Research & Management (Wiley), is significant. It combines ecological threats analysis with field-based demography, demonstrating a blend of conservation relevance and scientific rigor.

  3. Consistent Academic Output:
    Multiple publications in reputed journals (2020–2025) covering fish biodiversity, invasive species, and resource monitoring reflect continuity in research and contribution to both academic knowledge and environmental policy.

  4. Data Accessibility & Scientific Communication:
    The GBIF publication (2025) offering open-access biodiversity datasets promotes transparent and reusable ecological data—an emerging benchmark in modern scientific research.

  5. Collaborative and Interdisciplinary Work:
    His joint research efforts with experts in ecology, microbiology, and fishery science show team-based, interdisciplinary strengths—a trait often sought for award-winning research.

  6. Alignment with SDGs:
    His work directly supports UN Sustainable Development Goals like Life Below Water (SDG 14), Responsible Consumption (SDG 12), and Climate Action (SDG 13).

🧪 Areas for Improvement:

  1. Wider International Visibility:
    Most conferences and collaborations are national or regional. For broader recognition, future efforts should include partnerships with international research consortia or indexed journals with high impact factors.

  2. Experimental Novelty:
    While ecological and nutritional studies are valuable, future research could benefit from deeper genomic or metagenomic approaches, including DNA barcoding, environmental DNA (eDNA), or metabolomics to elevate scientific novelty.

  3. Diversification Beyond Ichthyofauna:
    His profile is deeply focused on fish ecology. Broader biodiversity modeling, ecological restoration, or climate-ecology interface could further diversify his research portfolio.

🎓 Education:

Dr. Ranjit More holds a Ph.D. in Zoology from Savitribai Phule Pune University (2022), where he researched the “Nutritional Profiling and Molecular Phylogenetics of Hyporhamphus limbatus and Xenentodon cancila from the Ujani Reservoir.” He completed his M.Sc. in Zoology (Animal Physiology) in 2016 from PDEA’s Prof. Ramkrishna More College, Akurdi, and his B.Sc. in Zoology from ITSPM’s A.S.C. College, Indapur in 2014. Dr. More qualified the PET exam in 2017, and registered for Ph.D. in 2018. His M.Sc. dissertation examined detergent toxicity effects on Chironomus ramosus larvae, showcasing early interest in aquatic pollution and ecology. He has attended intensive workshops, including one on Molecular Phylogenetics at the Indian Institute of Science (IISc), Bangalore, reflecting his commitment to upskilling in cutting-edge research tools.

🧑‍🏫 Experience:

Dr. More has over six years of academic and research experience. He served as a Junior and Senior Research Fellow (2019–2022) under the prestigious SARTHI fellowship funded by the Government of Maharashtra. He also worked as a teaching faculty at ITSPM’s A.S.C. College, Indapur from 2016 to 2019 and again from 2022 onward. Currently, he leads the Department of Microbiology (2023–2024) at the same institution, combining administrative leadership with academic duties. His hands-on expertise includes field research, lab-based molecular biology, teaching at UG and PG levels, and mentoring students. His experience is enriched by participation in national/international conferences, workshops, and ecological monitoring programs. A passionate educator and researcher, Dr. More bridges classroom learning with field and lab-based discovery, with a notable focus on fish biodiversity, water quality, and ecological data analytics.

🔬 Research Focus:

Dr. Ranjit More’s research centers on aquatic biodiversity, particularly nutritional profiling, molecular phylogenetics, and fish ecology in freshwater ecosystems of India. His doctoral thesis delved into two economically and ecologically significant fish species—Hyporhamphus limbatus and Xenentodon cancila—using genetic markers and nutritional analysis to assess their health and evolutionary relationships. His broader research investigates the ecological threats to freshwater fauna, invasive species impact, and conservation strategies for sustainable fishery practices. Dr. More is skilled in bio-monitoring, field data collection, and molecular analysis, and he often integrates Q-GIS and ecological software tools like MEGA, DIVA-GIS, and PAST in his studies. His data contributions to platforms like GBIF highlight his focus on open-access ecological data sharing. Committed to ecosystem health, his work contributes to conservation planning, scientific policymaking, and education on freshwater biodiversity in India.

📚 Publications Top Notes:

  1. 📘 Demography of Two Fishes Xenentodon cancila and Hyporhamphus limbatus From Ujani Reservoir (2025)

  2. 📙 A Baseline Survey of Freshwater Fish Fauna in the Krishna River of Northern Western Ghats (2025)

  3. 📗 Occurrence Data of Freshwater Fish from the Ujani Wetland, Pune, India (2025)

  4. 📕 Resource Monitoring in Mangrove Ecosystem of Maharashtra Coast, India (2024)

  5. 📘 Fatty Acids Composition of Hyporhamphus limbatus from Ujani Reservoir, Maharashtra (2022)

  6. 📗 Length-Weight Relationships of Xenentodon cancila and Hyporhamphus limbatus from Bhima River (2020)

  7. 📘 Pterygoplichthys pardalis from Ujani Reservoir, Maharashtra (2020)

  8. 📙 Freshwater Fish Fauna of Pune District: A Review Article (2018)

🔚 Conclusion:

Based on his consistent academic productivity, impactful research on threatened freshwater ecosystems, interdisciplinary collaborations, and scientific contribution to fish ecology and conservation, Dr. Ranjit Mohan More is highly suitable for the Best Research Article Award. His 2025 article in Lakes & Reservoirs stands out both in quality and relevance.

With growing international engagement and integration of emerging technologies, Dr. More’s research has strong potential to make deeper global impacts in aquatic biodiversity conservation.

RUI XU | Coaching & Mentoring | Best Researcher Award

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Assist. Prof. Dr. RUI XU | Coaching & Mentoring | Best Researcher Award

Assist. Prof. Dr. RUI XU | Tsinghua university | China

Dr. Rui Xu is an Assistant Researcher at Tsinghua University, specializing in advanced nuclear fuel technologies. A Ph.D. graduate from Tsinghua, Dr. Xu has made pioneering contributions to the preparation and industrialization of UO₂ and UC ceramic microspheres using microfluidic-assisted sol-gel techniques. His work plays a critical role in enabling high-temperature gas-cooled reactor (HTGR) advancements in China. He has successfully led both national and industrial R&D projects, notably with China National Nuclear Corporation (CNNC), resulting in the world’s first commercial HTGR fuel element production line. His scholarly output includes over a dozen SCI-indexed journal publications and multiple national invention patents. Recognized for both academic innovation and technological impact, Dr. Xu is a reviewer for top journals like Ceramics International and holds membership in the China Nuclear Society. His integrated approach to science and application continues to elevate the standards of nuclear material research globally.

Publication Profile:

Orcid

Scopus 

✅ Strengths for the Award:

  1. High-impact Research and Innovation:
    Dr. Xu has demonstrated exceptional innovation in the field of nuclear fuel technology, particularly in developing microfluidic-assisted sol-gel methods for UO₂ and UC microspheres. His recent breakthrough in external gelation using a urea solution provides a scalable, efficient, and additive-minimized alternative that is applicable to various ceramic materials (YSZ, Al₂O₃, TiO₂).

  2. Scientific and Industrial Impact:
    His work bridges fundamental research and industry application. Notably, he led the development of the world’s first commercial production line for HTGR fuel kernels in collaboration with CNNC — a significant milestone in nuclear fuel industrialization.

  3. Strong Publication Record:
    Dr. Xu has authored 12 SCI-indexed publications in respected journals such as Ceramics International and Journal of the American Ceramic Society, with 114 citations and an H-index of 6 — impressive metrics for a researcher at his career stage.

  4. Recognition and Leadership:
    As principal investigator of a National Youth Science Foundation project, author of a book (ISBN 9787302601579), and holder of 7 patents (4 invention + 3 utility), he exemplifies leadership in both academic and applied nuclear material research.

  5. Reviewer and Academic Contributor:
    His role as a reviewer for Ceramics International and as a member of the China Nuclear Society underlines his involvement in shaping research quality standards within the academic community.

⚠️ Areas for Improvement:

  1. International Collaboration:
    While his national contributions are outstanding, expanding global collaborations or joint publications with international institutions could enhance his visibility and impact on the world stage.

  2. Broader Interdisciplinary Scope:
    Given the versatility of ceramic microspheres, actively exploring cross-sector applications (e.g., biomedical implants, catalysts, sensors) could further diversify the applicability and influence of his research.

  3. Community Outreach and Mentorship:
    Including mentoring roles, public science engagement, or contributions to academic teaching would strengthen his profile in holistic research leadership and education.

🎓 Education:

Rui Xu earned his Ph.D. from the prestigious Tsinghua University, where he specialized in nuclear materials science and engineering. During his doctoral studies, he focused on developing innovative methods for the preparation of uranium-based fuel kernels, utilizing microfluidic-assisted internal and external gelation techniques. This foundational work laid the groundwork for high-performance fuel solutions for Very High-Temperature Gas-Cooled Reactors (VHTRs). In addition to core coursework, his academic training involved extensive lab work, interdisciplinary collaboration, and early contributions to peer-reviewed publications and patents. His academic excellence was further demonstrated through his involvement in national-level research grants, including work on the National Natural Science Foundation of China and the National Science and Technology Major Project. Rui Xu’s rigorous education equipped him with both theoretical depth and practical skills, positioning him as a leader in nuclear fuel innovation at the academic and industrial interface.

🧪 Experience:

As an Assistant Researcher at Tsinghua University, Dr. Rui Xu has extensive experience in nuclear fuel R&D, focusing on high uranium density microspheres. He has led multiple national research projects and one major industrial project in collaboration with CNNC. His work directly contributed to the development and commercial implementation of fuel kernels for HTGRs. Dr. Xu is a pioneer in microfluidic-assisted sol-gel techniques, optimizing internal and external gelation methods for UO₂, UC, and YSZ ceramic microspheres. He has authored over 12 SCI-indexed papers and secured seven patents (4 invention, 3 utility model). His scientific work is recognized both in academic circles and in the nuclear industry. He serves as a peer reviewer for Ceramics International, further highlighting his credibility and expertise. With a strong blend of lab-based research, technical leadership, and collaborative project execution, Dr. Xu has firmly established himself as an expert in advanced nuclear materials.

🔬 Research Focus:

Dr. Rui Xu’s research centers on the development of advanced nuclear fuel microspheres using sol-gel methods, particularly for Very High-Temperature Gas-Cooled Reactors (VHTRs). His primary focus is the preparation of high-purity, monodisperse uranium oxide (UO₂) and uranium carbide (UC) ceramic kernels via microfluidic-assisted internal and external gelation. His recent innovations include a urea solution-modified external gelation process for yttria-stabilized zirconia (YSZ) microspheres—simplifying production and improving mechanical properties. His research bridges academic inquiry and real-world application, facilitating breakthroughs in nuclear fuel industrialization and quality control. Dr. Xu is also exploring additive-free and scalable microsphere fabrication methods applicable to ceramics like Al₂O₃ and TiO₂. With a goal of improving the efficiency, safety, and environmental sustainability of nuclear energy, his work integrates materials science, reactor engineering, and manufacturing technology. His holistic approach makes substantial contributions to national energy strategies and next-generation nuclear reactor development.

📚 Publications Top Notes:

  1. 🧪 Enhanced Mechanical Properties of YSZ Ceramic Microspheres via Urea Solution-Modified External Gelation ProcessCeramics International (2025)

  2. 🔬 The Controlled Preparation of Uranium Carbide Ceramic Microspheres by Microfluidic-Assisted Internal Gelation ProcessCeramics International (2025)

  3. ⚗️ Preparation of UN Microspheres by External GelationCeramics International (2024)

  4. 🔍 In-situ Quantification of Dispersity and Sphericity of Uranyl Nitrate Sol Droplets Using Holographic ImagingPowder Technology (2024)

  5. ⚙️ 微流控辅助内凝胶工艺制备单分散氧化铀微球陶瓷学报 (2023)

  6. 🧴 A New Approach for Impregnation of Cs into Zirconia Microsphere MatrixCeramics International (2023)

  7. 🌐 Uniform Growth of Colloidal Particles via Internal Gelation ProcessColloids and Surfaces A (2023)

  8. 🧫 An Improvement of Microfluidic‐Assisted Internal Gelation in the Preparation of Millimeter‐Sized Ceramic MicrospheresJournal of the American Ceramic Society (2022)

  9. 🔄 Microstructure Evolution and Mechanism During Nitridation of Carbon-Containing Internal Gelation-Derived ZirconiaMaterials Today Communications (2021)

  10. 🧪 The Effect of Washing Process on the Cracking of ZrO₂ Microspheres by Internal GelationJournal of the American Ceramic Society (2021)

📝 Conclusion:

Dr. Rui Xu is an exceptionally strong candidate for the Best Researcher Award. His work demonstrates a rare combination of scientific depth, innovation, practical implementation, and societal relevance in the critical field of nuclear materials. His research outcomes are not only highly publishable but also industrially transformative, exemplified by the successful commercialization of HTGR fuel production.

With a growing body of impactful work, peer-reviewed publications, patents, and national-level funding, Dr. Xu has already established himself as a rising leader in nuclear fuel R&D. He fully embodies the award’s criteria and is highly recommended for this honor