Zhenyan Xia | Physics and Astronomy | Best Researcher Award

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Mr Zhenyan Xia | Physics and Astronomy | Best Researcher Award

Mr Zhenyan Xia | Tianjin University | China

Dr. Zhenyan Xia is an associate professor at Tianjin University, China. He has presided over and participated in more than 20 major national and regional research programs, including the Science and Technology Development of Tianjin, the National High Technology Research and Development Program of China (863 Program), and industry collaborations such as Shenzhen Moore Vaporization Health & Medical Tech Co., Ltd. He has published over 80 papers in international journals and conference proceedings, contributing significantly to fluid mechanics, molecular dynamics, and biomedical applications. Dr. Xia’s research on hyaluronic acid, a typical shear-thinning fluid, has advanced biomedical applications in tissue engineering and drug delivery. His team simulated the conformational evolution of hyaluronic acid solutions under varying shear rates, analyzing hydrogen bond lengths and angles. Findings revealed that shear stress reduces the number and strength of hydrogen bonds, enhancing solution flowability, consistent with macroscopic shear-thinning behavior.

Author’s Profiles:

Scopus |  Orcid

Early Academic Pursuits

Dr. Zhenyan Xia developed a strong foundation in fluid mechanics and molecular dynamics during his doctoral and postdoctoral studies. His early research focused on the theoretical modeling of turbulent flows and the microscopic behavior of complex fluids, laying the groundwork for his later innovations in shear-thinning fluid applications and nanostructured fluid systems.

Professional Endeavors

Dr. Xia is currently an associate professor at Tianjin University, where he has led and participated in over 30 national and industry-sponsored research projects, including the National High Technology Research and Development Program of China (863 Program) and collaborations with Shenzhen Moore Vaporization Health & Medical Tech Co., Ltd. He has guided multiple interdisciplinary teams and contributed to advancing applied fluid mechanics and biomedical engineering technologies.

Contributions and Research Focus

Dr. Xia’s research integrates theoretical and applied studies on turbulent flow control, fluid instability, and molecular dynamics of fluid–micro/nano structures. Notably, he modeled hyaluronic acid solutions to reveal molecular-level mechanisms behind shear-thinning behavior. His simulations demonstrated how shear stress reduces hydrogen bond strength and alters molecular conformations, directly correlating with enhanced solution flowability observed in macroscopic experiments. This work provides critical insights for tissue engineering, drug delivery, and biomedical fluid design, bridging molecular simulations with practical engineering applications.

Impact and Influence

Dr. Xia has published more than 80 peer-reviewed papers in international journals and conferences, achieving over 500 citations across SCI, EI, and Scopus databases. He has authored 50 journal articles, supervised multiple industry-sponsored projects, and filed 10 patents, contributing both to fundamental science and practical technologies. His consultancy work with Shenzhen Moore Vaporization Health & Medical Tech Co., Ltd demonstrates the industrial relevance and societal impact of his research.

Academic Cites

  • Over 500 citations in SCI, EI, Scopus

  • 50 journal articles published in indexed journals

  • 10 patents filed/published

Legacy and Future Contributions

Dr. Xia is shaping the future of fluid mechanics and biomedical engineering through the integration of molecular-level understanding with macroscopic engineering applications. He aims to expand computational modeling of complex fluids for smart biomedical materials, enhance industrial fluid processes, and develop scalable applications of shear-thinning and nanostructured fluids. His work is expected to inspire next-generation engineers and researchers, bridging theoretical insights with tangible technological advancements in healthcare and engineering systems.

Featured Publications

Xia, Z., [Other authors if available]. (2024). An analysis of the contact time of nanodroplets impacting superhydrophobic surfaces with square ridges. Computational Materials Science,113249. https://doi.org/10.1016/j.commatsci.2024.113249

Xia, Z., [Other authors if available]. (2022). Experimental investigation of the impact of viscous droplets on superamphiphobic surfaces. Physics of Fluids, https://doi.org/10.1063/5.0080396

Xia, Z., [Other authors if available]. (2021). Research on the contact time of a bouncing microdroplet with lattice Boltzmann method. Physics of Fluids, https://doi.org/10.1063/5.0046551

Bao Yuan | Physics | Best Researcher Award

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Mr. Bao Yuan | Physics | Best Researcher Award 

Mr. Bao Yuan, Institute of High Energy Physics, Chinese Academy of Sciences, China

Mr. Bao Yuan is a Senior Engineer at the Institute of High Energy Physics, Chinese Academy of Sciences. Since 2014, he has played a key role in the development of the China Spallation Neutron Source, focusing on high-pressure sample environments for in-situ neutron scattering. With over 30 published papers and more than 20 patents, his work supports critical scientific research in energy and environmental fields, including combustible ice and shale gas. His expertise in neutron scattering and high-pressure systems significantly contributes to advancements in material science and applied physics.

Profile

Orcid

🎓 Early Academic Pursuits

Mr. Bao Yuan’s journey in the field of science and engineering began with a strong academic foundation in physics and engineering. His keen interest in material sciences and the exploration of fundamental particles and systems naturally guided him toward a career in high-energy physics. With a commitment to contributing to national and international scientific advancements, Mr. Yuan pursued his higher education and professional training with a focus on experimental techniques, particularly those involving neutron scattering—a powerful tool in material and structural analysis.

His academic path laid the groundwork for a career dedicated to exploring complex scientific challenges through practical innovation, positioning him to work with one of China’s most prestigious scientific institutions.

🧑‍🔬 Professional Endeavors

Since 2014, Mr. Bao Yuan has been a Senior Engineer at the Institute of High Energy Physics (IHEP), Chinese Academy of Sciences, one of China’s premier research centers. He has remained at the forefront of China’s scientific infrastructure development, playing a pivotal role in the construction of the China Spallation Neutron Source (CSNS). His core responsibility has been to develop and manage high-pressure sample environments essential for in-situ neutron scattering experiments.

Through his work, Mr. Yuan has contributed to building advanced neutron scattering facilities that are crucial for modern research in materials science, chemistry, physics, and earth sciences. His involvement in the construction of the high-pressure neutron diffractometer has been a major contribution to China’s capability in scientific experimentation under extreme conditions.

🔬 Contributions and Research Focus

Mr. Bao Yuan’s research primarily focuses on neutron scattering under high-pressure environments, an area critical for understanding the structure and behavior of materials in conditions simulating the Earth’s deep crust or industrial settings. His scientific contributions address several pressing global issues, including:

  • Combustible ice (methane hydrates)

  • Shale oil and gas extraction

  • Polycrystalline material behavior under stress

His work provides insight into the molecular structures and transitions in these materials, enabling more efficient and sustainable resource exploration. By enabling precise neutron scattering experiments in high-pressure environments, Mr. Yuan has allowed researchers to simulate and study conditions that were previously difficult to replicate in laboratory settings.

To date, Mr. Yuan has authored over 30 scientific publications in high-impact journals indexed in SCI and Scopus, reflecting the depth and quality of his contributions. He is also the inventor or co-inventor of more than 20 patents, showcasing his continuous pursuit of practical innovations within his research area.

🏆 Accolades and Recognition

While Mr. Yuan has not actively sought individual accolades, the magnitude of his technical innovations and the successful operationalization of CSNS’s high-pressure neutron diffraction facilities are significant achievements recognized within the scientific community.

The sustained recognition of his published work, as well as the industrial relevance of his patented inventions, reflect his indirect yet profound influence on both academic research and applied sciences. His contributions have become valuable assets for interdisciplinary research, aiding material scientists, geologists, chemists, and environmental researchers alike.

🌍 Impact and Influence

Mr. Bao Yuan’s impact extends beyond the bounds of his immediate institution. His work underpins some of China’s most advanced neutron scattering experiments, allowing for:

  • Detailed analysis of material properties under varying pressure and temperature

  • Simulation of environmental and geological conditions for resource studies

  • Enhanced understanding of structural behaviors that affect material performance

By facilitating research on combustible ice, shale resources, and other energy materials, Mr. Yuan has supported projects with national energy and environmental relevance. His innovations also contribute to global scientific databases, fostering collaboration and knowledge-sharing among researchers worldwide.

Furthermore, his work sets a benchmark for engineering excellence and research-driven infrastructure development in China’s scientific community.

🌟 Legacy and Future Contributions

Mr. Bao Yuan’s career reflects a commitment to scientific excellence and technological progress. As a mentor to young engineers and researchers, he continues to influence the next generation of physicists and material scientists. His expertise in creating high-pressure sample environments opens new avenues for future research, including:

  • High-temperature and high-pressure materials for aerospace and nuclear industries

  • Neutron imaging of biological systems under stress

  • Multiphase material investigations for clean energy technologies

Looking forward, Mr. Yuan aims to expand the scope and capabilities of neutron scattering tools in China and encourage international collaborations that elevate global research standards. His enduring legacy will be his role in empowering groundbreaking discoveries through technical mastery and unwavering dedication.

Publication top Notes

Low compressibility of photoelectric properties of layered molecular non-metal halide AsI3

ContributorsZonglun Li; Dexiang Gao; Shuxin Chen; Lei Yue; Bao Yuan; Xudong Shen; Le Kang; Quanjun Li; Bingbing Liu
Journal: Materials Chemistry A
Year: 2025

Molecular insights into the formation of carbon dioxide hydrates on the external surface of sodium montmorillonite in the presence of various types of organic matters

ContributorsYun Li; Meng Han; Zhouhua Wang; Bao Yuan; Kaixiang Shen; Baifa Zhang; Pengfei Wang; Songbai Han; Jinlong Zhu
Journal: Gas Science and Engineering
Year: 2024

A comprehensive review of hydrogen purification using a hydrate-based method

Contributors: Pengfei Wang; Yiqi Chen; Ying Teng; Senyou An; Yun Li; Meng Han; Bao Yuan; Suling Shen; Bin Chen; Songbai Han et al.
Journal: Renewable and Sustainable Energy Reviews
Year: 2024

Dr. Leonardo Di Giustino | Quantum Chromodynamics  | Best Researcher Award

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Dr. Leonardo Di Giustino | Quantum Chromodynamics  | Best Researcher Award

University of Insubria, Italy.

Leonardo Di Giustino is an Italian theoretical physicist specializing in Quantum Chromodynamics (QCD) and condensed matter physics. With two Ph.D. degrees in physics, his research spans from renormalization scale-setting in QCD to electron states in metal interfaces. He has held research positions at institutions such as the University of Insubria, Max Planck Institute, and SLAC National Accelerator Laboratory. In addition to his academic career, he has extensive experience as a high school teacher in mathematics and physics.

Profile

Orcid

Education🎓

Dr. Leonardo Di Giustino holds two Ph.D. degrees in physics, demonstrating his deep expertise in both theoretical and computational physics. He earned his Ph.D. in Physics (2022, cum laude) from the University of Insubria, Italy, with a thesis titled "The Renormalization Scale-Setting Problem in QCD," focusing on fundamental issues in quantum chromodynamics. Earlier, he completed his first Ph.D. in Physics (2005) at the University of Modena and Reggio Emilia, Italy, where his research, "Ab initio study of NiO-Fe interfaces: electron states and magnetic configurations," explored the electronic and magnetic properties of materials at the atomic level. His academic journey began with an M.Sc. in Physics (2001) from the University of Rome "La Sapienza," where he investigated "Semileptonic Inclusive Decays of Heavy Flavors." In addition to his research credentials, he holds High School Teaching Qualifications from the University of Modena and the University of Parma, equipping him with the expertise to educate and inspire future generations in mathematics and physics.

Experience🏢

Dr. Leonardo Di Giustino is a dedicated researcher with extensive experience in theoretical physics, particularly in quantum chromodynamics (QCD) and renormalization scale-setting methods. From 2022 to 2024, he served as a Postdoctoral Researcher at the University of Insubria, Italy, where he contributed to advancements in high-energy physics. His research journey includes international collaborations, such as his role as a Visiting Scientist at SLAC National Accelerator Laboratory, USA (2011, 2018–2019), where he worked alongside leading physicists on cutting-edge particle physics projects. Additionally, he was a Fellowship Researcher at the Max Planck Institute for Physics, Germany (2012–2013), further strengthening his expertise in theoretical physics. Earlier in his career, he was a Research Fellow at the University of Parma, Italy (2006–2007), contributing to fundamental studies in physics. Alongside his research activities, Dr. Di Giustino has been committed to education, serving as a Mathematics and Physics teacher since 2007, inspiring and mentoring students in scientific disciplines. His diverse experience highlights his dedication to both academic research and science education.

Research Interests🔬

Quantum Chromodynamics (QCD)

Renormalization and Regularization Methods in QCD

Collider Physics and Precision Calculations

Condensed Matter Physics & Magnetic Interfaces

Awards & Fellowships🏆

Angelo Della Riccia Foundation Fellowship (2011)

Max Planck Institute Fellowship (2012-2013)

Postdoctoral Fellowship, University of Insubria (2022-2024)

Selected Publications📚

1.Detailed Comparison of Renormalization Scale-Setting Procedures Based on the Principle of Maximum Conformality

Journal: Nuclear Physics B

Publication Date: April 2023

Contributors: Xu-Dong Huang, Jiang Yan, Hong-Hao Ma, Leonardo Di Giustino, Jian-Ming Shen, Xing-Gang Wu, Stanley J. Brodsky

Key Insights:

Compares various renormalization scale-setting methods.

Demonstrates the advantages of the Principle of Maximum Conformality (PMC) in eliminating scheme and scale ambiguities in QCD calculations.

2. Elimination of QCD Renormalization Scale and Scheme Ambiguities

Journal: Universe

Publication Date: April 2023

Contributors: Sheng-Quan Wang, Stanley Brodsky, Xing-Gang Wu, Jian-Ming Shen, Leonardo Di Giustino

Key Insights:

Focuses on how PMC removes renormalization ambiguities and improves QCD predictions.

Discusses applications of PMC in high-energy physics.

3. Elimination of QCD Renormalization Scale and Scheme Ambiguities (Preprint)

Publication Date: February 16, 2023

Contributors: Leonardo Di Giustino

Key Insights:

Early version of the Universe journal article.

Highlights the challenges in conventional renormalization procedures and how PMC provides a systematic solution.

4. The Renormalization Scale-Setting Problem in QCD (Ph.D. Thesis)

Publication Date: May 25, 2022

Contributors: Leonardo Di Giustino

Key Insights:

A comprehensive analysis of renormalization scale-setting methods in QCD.

Discusses theoretical foundations and applications of PMC.

5. Thrust Distribution for 3-Jet Production from e⁺e⁻ Annihilation within the QCD Conformal Window and in QED

Journal: Physics Letters B

Publication Date: December 2021

Contributors: Leonardo Di Giustino, Francesco Sannino, Sheng-Quan Wang, Xing-Gang Wu

Key Insights:

Applies PMC to 3-jet production in QCD and QED.

Examines the thrust distribution and its implications for high-energy physics.