Mr Sindre Zeiner-Gundersen | Materials Science | Best Researcher Award

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Mr Sindre Zeiner-Gundersen | Materials Science | Best Researcher Award

Mr. Sindre Zeiner-Gundersen is a leading physicist and principal process engineer with a strong background in hydrogen technology, nuclear physics, and advanced energy systems. With over two decades of experience, he has worked across sectors including green hydrogen, ammonia, tidal energy, and nuclear reactor development. He is the founder and technical director of several pioneering research initiatives focused on hydrogen Rydberg matter, ultra-dense hydrogen, and propellantless propulsion systems. His blend of theoretical insight and applied engineering has positioned him at the forefront of innovation in renewable and quantum-based energy technologies.

Mr Sindre Zeiner-Gundersen, University Of Iceland, Norway

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πŸŽ“ EducationΒ 

Mr. Sindre Zeiner-Gundersen holds a Ph.D. (Cand.) in Hydrogen Physics and Excited States of Hydrogen from the University of Iceland (2016–2023) πŸ§ͺβš›οΈ. He earned an M.Sc. in Electron Microscopy and Material Physics from the University of Oslo (2011–2012) πŸ”¬πŸ§«, and another M.Sc. in Environmental and Biotechnological Sciences from NMBU (2006–2009) 🌱🧬. He began his academic path with a B.Sc. in Physics from the University of TromsΓΈ (2003–2006) πŸ“˜πŸ§ . His specialized training includes hydrogen fuel cell design, solar grid optimization, LabVIEW, TEM/SEM, and XRF calibration, equipping him with advanced technical and computational skills πŸ› οΈπŸ’»πŸ”.

πŸ’Ό ExperienceΒ 

Mr. Sindre Zeiner-Gundersen brings over a decade of multidisciplinary expertise in hydrogen, ammonia, and advanced energy systems βš›οΈπŸ”‹. As Principal Process Engineer at Scatec ASA (2022–), he leads large-scale hydrogen/ammonia infrastructure projects πŸŒβš™οΈ. At Norconsult AS (2021–2022), he advised on hydrogen technologies and renewable process systems πŸ’ΌπŸ”¬. He co-founded Nornec AS, focusing on nuclear reactor design and instrumentation πŸ”§πŸ§ͺ. At NorrΓΈnt AS (2009–2020), he directed a pioneering laser-pulsed hydrogen/deuterium reactor project πŸš€πŸ’‘. His experience spans engineering design, quantum energy research, and sustainable system optimization across multiple continents πŸŒπŸ› οΈ.

πŸ’» Project ContributionsΒ 

Mr. Sindre Zeiner-Gundersen has led and contributed to over a decade of high-impact energy and engineering projects 🌍⚑. His portfolio includes the design and optimization of green hydrogen and ammonia facilities across Egypt, Oman, and Norway πŸ—οΈπŸ’¨. He played key roles in 100+ MW electrolyzer deployments, waste-to-energy plasma systems, and tidal/wind energy turbines πŸŒŠβ˜€οΈ. As Chief Scientist and Process Engineer, he delivered scalable solutions for hydrogen production, fusion research, and carbon capture systems πŸ§ͺπŸ”‹. His strategic work bridges clean energy deployment, hydrogen materials, and advanced propulsion, making him a cornerstone in sustainable technology innovation πŸš€β™»οΈ.

🧲 Research Focus 

Mr. Zeiner-Gundersen’s research centers on quantum hydrogen states, nuclear fusion, and plasma-based waste-to-energy systems βš›οΈπŸ”‹πŸ”₯. He explores ultra-dense hydrogen, focusing on material excitation, radiation shielding, and superconductivity for advanced energy applications πŸ§ͺπŸ§²πŸ›‘οΈ. His groundbreaking studies in propellantless propulsion, fusion catalysts, and turbine optimization merge theoretical physics with real-world energy systems πŸš€πŸŒ. His work supports breakthroughs in green hydrogen infrastructure, renewables, and aerospace energy technologies πŸŒ±βš™οΈβœˆοΈ. Blending visionary science with applied engineering, Mr. Zeiner-Gundersen pioneers frontier technologies that redefine how energy is generated, stored, and utilized across industries πŸŒπŸ”§.

πŸ“˜ Publications

A Technical Review of Hydrogen Production Methods, Equipment, and Market Leaders

Author: Sindre Zeiner-Gundersen
Published: November 2024

Unlocking Your Creativity – The Power of the Theta Brainwave State

Author: Sindre Zeiner-Gundersen
Published: October 2023

Muon-Catalyzed Fusion: Breaking Barriers Toward Scalable Clean Energy Solutions

Author: Sindre Zeiner-Gundersen
Published: October 2023

Exploring the Connection Between Rydberg Matter, Ultra-Dense Hydrogen, Black Holes, and Frozen Stars: A New Paradigm in Compact Quantum States

Author: Sindre Zeiner-Gundersen
Published: October 2023

Harnessing Ultra-Dense Hydrogen and Meson Generators: A New Frontier in Sustainable Energy and Fundamental Physics

Author: Sindre Zeiner-Gundersen
Published: October 2024

Superconductivity and Quantum Effects in Ultra-Dense Hydrogen

Author: Sindre Zeiner-Gundersen
Published: September 2024

Design and Energy Requirements of a Linear Wormhole Accelerator Fueled by Ultra-Dense Hydrogen Annihilation

Author: Sindre Zeiner-Gundersen
Published: September 2024

Dr MICHELE CROZATIER | Materials Science | Women Researcher Award

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Dr MICHELE CROZATIER | Materials Science | Women Researcher Award

Dr. MichΓ¨le Crozatier is a senior scientist (DR1-CNRS) at the Centre de Biologie IntΓ©grative, University of Toulouse III – Paul Sabatier, France. She co-leads the research group β€œHematopoiesis and Immune Response in Drosophila” and is internationally recognized for her pioneering work in developmental biology and genetics. With over three decades of experience, she has significantly advanced the understanding of blood cell development, immune response, and stem cell regulation using Drosophila as a model organism. Her work integrates molecular biology, immunology, and stem cell niche dynamics, positioning her as a leader in integrative biomedical research.

Dr MICHELE CROZATIER, MCD/CBI /University Toulouse, France

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πŸŽ“ Education

Dr. MichΓ¨le Crozatier earned her Ph.D. in Molecular and Cellular Biology in 1987 from the University of Clermont-Ferrand II, France πŸŽ“πŸ§¬. She later received her HDR (Habilitation to Direct Research) in 2002 from the University Paul Sabatier, Toulouse III, where she has since been a leading figure in developmental biology education and research πŸ§«πŸ“˜. Her academic training laid the foundation for decades of innovation in stem cell biology, genetics, and hematopoiesis research πŸ”¬πŸ§ . Dr. Crozatier’s prestigious academic credentials reflect her long-standing commitment to scientific excellence and interdisciplinary education in life sciences πŸ“šπŸŒ.

πŸ›οΈ ExperienceΒ 

Dr. MichΓ¨le Crozatier is a senior research director (DR1-CNRS) at the Centre de Biologie IntΓ©grative, CNRS–University Paul Sabatier, Toulouse πŸ›οΈπŸ”¬. Since 2021, she has co-led the research group β€œHematopoiesis and Immune Response in Drosophila” 🧬🦟. With a career spanning over three decades, she has held roles from postdoctoral researcher at the Netherlands Cancer Institute 🧫 to group leader and platform coordinator at CNRS Toulouse πŸ”πŸ‘©β€πŸ”¬. Her contributions to developmental genetics, immune signaling, and stem cell biology have shaped Drosophila research across Europe and inspired innovation in immunology and niche biology globally 🌍🧠.

πŸ” Grant-Funded Research

Dr. MichΓ¨le Crozatier has led and collaborated on multiple prestigious research projects exploring Drosophila hematopoiesis and immune regulation 🧬🦠. Her ANR and FRM-funded projects investigated niche-stem cell interactions, vascular influences on blood cell formation, and the microenvironmental control of hematopoiesis under stress πŸ”πŸ©ΈπŸŒ±. Supported by agencies like ANR, FRM, and Ligue contre le Cancer, her work utilizes Drosophila as a model to uncover principles relevant to mammalian systems πŸ§ͺ🧫. These studies bridge developmental biology and immunology, offering key insights into how stem cells respond to signals and environmental changes under physiological and pathological conditions πŸ§ βš™οΈ.

πŸ† Scientific Contribution

Dr. MichΓ¨le Crozatier has an impressive scientific record with 54 publications, including 10 invited reviews πŸ“πŸ“š. Since 2007, she has authored 20 original research papers, with 10 as last and corresponding author, reflecting her leadership in the field πŸ§¬πŸ”¬. Her research contributions focus on hematopoiesis, stem cell regulation, and immune responses using Drosophila as a model organism 🧫🦠. Her work, featured in top journals like Nature, PNAS, and eLife, has deepened understanding of niche signaling and developmental genetics 🧠🌱. Dr. Crozatier’s output reflects a sustained and influential role in life science research globally πŸŒπŸ†.

πŸ”¬ Research FocusΒ 

Dr. MichΓ¨le Crozatier’s research centers on developmental biology, with a specific focus on hematopoiesis, stem cell regulation, cell signaling, and genetic control mechanisms πŸ§¬πŸ”¬πŸ§«. Using Drosophila melanogaster as a model organism πŸͺ°, her work explores how blood cells are formed, maintained, and influenced by their microenvironment. She investigates the interplay between stem cells and their niches, uncovering how external and internal signals govern immune cell differentiation and response πŸ’‰πŸ§ . Her studies provide valuable insights into fundamental biological processes with implications for understanding human health, immune disorders, and regenerative medicine 🌍.

πŸ“š Publications

Hematopoietic progenitor maintenance depends on their direct contacts with the niche
Authors: Tian Y., Morin-Poulard I., Liu X., Vanzo N., Crozatier M.*
Journal: PNAS, 2023, Vol. 120, No. 18, e2217862120

The Drosophila lymph gland acts as a hematopoietic organ and is a model to study blood cell development
Authors: Destalminil-Letourneau M., Morin-Poulard I., Tian Y., Vanzo N., Crozatier M.*
Journal: eLife, 2021; 10:e64672

Immune stress triggers hematopoietic progenitor plasticity and niche remodeling in Drosophila
Authors: Morin-Poulard I., Tian Y., Vanzo N., Crozatier M.*
Journal: Frontiers in Immunology, 2021; 12:719349

Drosophila model for studying the vascular control of hematopoiesis
Authors: Louradour I., Sharma A., Morin-Poulard I., Letourneau M., Vincent A., Crozatier M., Vanzo N.
Journal: eLife, 2017; e25496

Reactive oxygen species control blood progenitor cell fate via regulation of niche signals
Authors: Morin-Poulard I., Sharma A., Louradour I., Vanzo N., Vincent A., Crozatier M.*
Journal: Nature Communications, 2016; 7:11634

Drosophila hematopoiesis under immune challenge
Authors: Oyallon J., Vanzo N., Krzelien J., Morin-Poulard I., Vincent A., Crozatier M.*
Journal: PLoS One, 2016; 11(2):e0148978

Notch and Dpp signaling pathways cooperate to maintain hematopoietic progenitors
Authors: Pennetier D., Oyallon J., Morin-Poulard I., Dejean S., Vincent A., Crozatier M.*
Journal: PNAS, 2012; 109(9): 3389

Prof Junping LIU | Fuzhou University | Best Researcher Award

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Prof Junping LIU | Fuzhou University | Best Researcher Award

Prof. Junping Liu is a prominent figure in civil and structural engineering, currently serving as a Professor at the College of Civil Engineering, Fuzhou University, China. With a Ph.D. in Bridge and Tunnel Engineering from Chang’an University, his work integrates cutting-edge research in composite bridge structures, ultra-high performance concrete (UHPC), and structural innovation. Prof. Liu has an extensive track record of academic leadership, numerous publications in high-impact journals, and recognition through national scientific achievement awards. His research has significantly advanced both theoretical frameworks and practical applications in modern bridge engineering.

Prof Junping LIU, Fuzhou University, China

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πŸŽ“ EducationΒ 

Prof. Junping Liu holds a Ph.D. in Bridge and Tunnel Engineering from Chang’an University (2006–2009), where he specialized in advanced structural systems for infrastructure πŸ—οΈπŸŽ“. He earned his M.S. in Structural Engineering from Changsha University of Science and Technology (2002–2005), focusing on composite structures and load-bearing behavior πŸ“πŸ”¬. His academic journey began with a diploma from the College of Civil Engineering and Architecture, Jiangxi Science & Technology Normal University (1995–1998), laying a solid foundation in civil engineering fundamentals πŸ§±πŸ“. This educational progression has shaped his expertise in modern bridge design and engineering innovation πŸŒ‰πŸ’‘.

πŸ›οΈ ExperienceΒ 

Prof. Junping Liu brings over two decades of expertise in civil and structural engineering πŸ—οΈπŸ“. He is currently a Professor at Fuzhou University (2021–present) and previously served as Associate Professor (2013–2020) and Assistant Professor (2010–2013) in the same department πŸŽ“πŸ›οΈ. From 2017–2018, he was a Visiting Scholar at the University of Toronto, expanding his global research outlook πŸŒπŸ“š. Earlier in his career, he worked as a Civil Engineer at the An’fu County Construction Bureau (1998–2002), gaining valuable practical experience in infrastructure development and municipal projects πŸ’πŸ› οΈ. His career blends academic leadership with real-world engineering impact.

πŸ† AwardΒ 

Prof. Junping Liu has received prestigious provincial awards for his groundbreaking work in bridge engineering and composite structures πŸ—οΈπŸ“. In 2012, he was honored with the Fujian Provincial Award for Achievement in Science and Technology for his research on the theory and application of steel–concrete composite bridge structures πŸ”©πŸ§±. Earlier, in 2010, he received the Gansu Provincial Award for his innovative contributions to the design and performance of rectangular steel tube trusses πŸ“ŠπŸ”§. These accolades reflect his leadership in developing sustainable, high-performance infrastructure solutions that shape modern civil engineering πŸŒ‰πŸ†.

πŸ“˜ BookΒ 

Co-authored by Prof. Junping Liu, this book offers a comprehensive overview of concrete-filled steel tubular (CFST) arch bridges, a key innovation in modern bridge engineering πŸŒ‰πŸ§±. Published by Springer in 2022, it explores the mechanical behavior, design methods, construction techniques, and performance evaluation of CFST structures πŸ› οΈπŸ“. It also presents experimental results, numerical simulations, and case studies that demonstrate the durability and load-carrying capacity of these composite systems πŸ“ŠπŸ§ͺ.

πŸ”¬ Research Focus

Prof. Junping Liu’s research focuses on advanced structural systems in civil engineering, with an emphasis on concrete-filled steel tube (CFST) arch bridges and composite bridge technologies πŸŒ‰πŸ”©. He explores the behavior, design, and durability of ultra-high performance concrete (UHPC) for next-generation infrastructure πŸ§±βš™οΈ. A key area of his work includes the rehabilitation and strengthening of aging bridges, contributing to sustainable and resilient engineering practices πŸ› οΈβ™»οΈ. Through experimental analysis and field applications, his studies enhance the safety, efficiency, and innovation of long-span bridge systems across various environments πŸŒπŸ”¬.

πŸ“š Publications

Flexural Behavior of Steel-UHPC-NC Composite Girders with Different UHPC-NC Interface Treatments

Authors: Jing-Wei Zhu, Yu Pan, Junping Liu, Mostafa Fahmi Hassanein, Hai-Ting Li
Journal: Journal of Bridge Engineering (2025)

Experimental Study on Punching Shear Behavior of Ultra-High-Performance Concrete (UHPC) Slabs

Authors: Junping Liu
Journal: Buildings (2025)

Design Principles and Technological Development of Concrete-Filled Steel Tube Composite Bridges (Review Article)

Authors: Junping Liu

Trial Design of Concrete Arch Bridge with UHPC Butterfly Web

Authors: Liu Junping, Xie Yunpeng, Xiong Shiwei, Wang Daolin, Chen Bao-Chun
Journal: Journal of Chang’an University (Natural Science Edition) (2025)

Study on Vehicle-Bridge Coupling and Impact Factor of the Wumengshan Bridge

Authors: Junping Liu

 

Assist. Prof. Dr Yousef Moradi | Materials Science | Material Scientist Award

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Assist. Prof. Dr Yousef Moradi | Materials Science | Material Scientist Award

Dr. Yousef Moradi is an accomplished epidemiologist and lecturer with a B.Sc. in Public Health (2013), M.Sc. in Epidemiology (2015), and Ph.D. in Epidemiology (2020) from Iran University of Medical Sciences πŸŽ“πŸ”¬. His Ph.D. research explored the transmission of ESBL-producing E. coli in the environment and food chain 🧫🌍. He has supervised numerous theses on infectious and chronic diseases and currently serves at Kurdistan University of Medical Sciences πŸ₯πŸ“Š. Recognized among the top 1% most cited researchers globally πŸŒπŸ“ˆ, Dr. Moradi’s work bridges public health, microbiology, and data-driven disease prevention strategies.

Assist. Prof. Dr Yousef Moradi, Kurdistan University of Medical Sciences, Iran

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πŸŽ“ EducationΒ 

Dr. Yousef Moradi earned his Ph.D. in Epidemiology (2016–2020) from Iran University of Medical Sciences, ranked 3rd nationally in medical education πŸŽ“πŸ₯. His dissertation focused on the transmission of extended spectrum Ξ²-lactamase (ESBL) producing E. coli across environmental, food, and human chains πŸ§«πŸŒ±πŸ‘¨β€βš•οΈ. He completed his Ph.D. with an outstanding GPA of 19.93/20 under the guidance of Professors Hamid Reza Baradaran, Babak Eshrati, and advisor Abbas Motevalian πŸ§ πŸ“š. Earlier, he completed his M.Sc. in Epidemiology (2013–2015) at the same university with a perfect GPA of 20/20, laying the groundwork for his impactful research in public health πŸ“ˆπŸ”.

πŸ₯ ExperienceΒ 

Dr. Yousef Moradi is an Assistant Professor of Epidemiology with a Ph.D. from Iran University of Medical Sciences and over 160 peer-reviewed publications πŸ§ͺπŸ“š. He has extensive experience analyzing large-scale health datasets, including electronic health records, using quasi-experimental methods, cohort studies, and advanced statistical modeling in R, Stata, and SPSS πŸ“ŠπŸ’». At Kurdistan University of Medical Sciences, he has taught MSc and MD students and supervised 10+ research theses πŸŽ“πŸ“–. His technical proficiency spans meta-analyses, systematic reviews, and national survey evaluations πŸ“ˆπŸ”. Dr. Moradi is committed to impactful global health research and open to remote collaborations 🌍🩺.

πŸ“– Book

Dr. Yousef Moradi has authored key academic resources designed for public health and epidemiology scholars πŸ“šπŸ“Š. The Statistical Note Book simplifies complex biostatistical concepts for students and researchers using real-world health data examples πŸ“ˆπŸ§ . The Epidemiology Note Book covers foundational and advanced topics in disease surveillance, study design, and outbreak investigation πŸ¦ πŸ“‹. His third book, Non-communicable Diseases Epidemiology in Iran, analyzes patterns, trends, and prevention strategies for chronic diseases like diabetes, cancer, and cardiovascular disorders within the Iranian population πŸ’‰β€οΈπŸ§¬. These texts serve as vital tools for health professionals and policy researchers across disciplines.

πŸ” Research FocusΒ 

Dr. Yousef Moradi’s research spans a broad spectrum of epidemiological and public health domains 🧠🩺. His interests include non-communicable diseases (e.g., gynecology, diabetes, cancer) πŸŽ—οΈ, communicable diseases (HIV/AIDS, AMR) 🦠, and high-risk populations (PWID, MSM, FSWs) 🚻. He specializes in social determinants of health, socioeconomic analysis, and evidence synthesis through systematic reviews and meta-analyses πŸ“ŠπŸ“š. His methodological expertise covers modeling causality, psychometrics, molecular epidemiology (MLST, PCR), and large-scale study designs like cohort, case-control, and RCTs πŸ”πŸ§¬. Dr. Moradi’s integrative approach strengthens global health strategies through data, diagnostics, and interdisciplinary analysis πŸŒπŸ’‘.

πŸ“š Publication Top Notes

Global, regional, and national burden of diabetes from 1990 to 2021, with projections of prevalence to 2050: a systematic analysis for the Global Burden of Disease Study 2021

Cancer incidence, mortality, years of life lost, years lived with disability, and disability-adjusted life years for 29 cancer groups from 2010 to 2019: a systematic analysis …

Global incidence, prevalence, years lived with disability (YLDs), disability-adjusted life-years (DALYs), and healthy life expectancy (HALE) for 371 diseases and injuries in …

Global burden of 288 causes of death and life expectancy decomposition in 204 countries and territories and 811 subnational locations, 1990–2021: a systematic analysis for the …

Global burden and strength of evidence for 88 risk factors in 204 countries and 811 subnational locations, 1990–2021: a systematic analysis for the Global Burden of Disease …

 

Dr Huaming Li | Materials Science | Best Researcher Award

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Dr Huaming Li | Materials Science | Best Researcher Award

Dr. Huaming Li is an Associate Professor at the College of Physics and Optoelectronics, Taiyuan University of Technology, China. He earned his Ph.D. in Physics from the Georgia Institute of Technology, USA, and has held academic positions at Taiyuan University since 2012. His research focuses on high-pressure thermodynamic behavior of liquid metals and solid solutions. Known for his discovery of linear isothermal regularities and his development of predictive equations of state, Dr. Li integrates fundamental physics with advanced materials science. His scholarly work bridges experimental insight and theoretical modeling in condensed matter and thermal physics.

Dr Huaming Li, Taiyuan University of Technology, China

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πŸŽ“ Education

Dr. Huaming Li has a strong academic foundation in physics, beginning with his B.S. (1995–1999) and M.S. (1999–2002) in Theoretical Physics from Lanzhou University, China πŸ‡¨πŸ‡³. He then earned his Ph.D. in Physics (2002–2009) from the prestigious Georgia Institute of Technology, USA πŸ‡ΊπŸ‡Έ. His doctoral studies focused on thermodynamic behavior and phase transitions in materials, laying the groundwork for his future in high-pressure physics and condensed matter research. This educational journey equipped him with advanced skills in statistical mechanics, computational physics, and materials theory πŸ“πŸ§ πŸ”¬β€”essential tools for his innovative work in materials science.

πŸ‘¨β€πŸ« Experience

Dr. Huaming Li has rich academic and research experience spanning over a decade in the field of condensed matter and thermodynamic physics πŸ§ͺ. After earning his Ph.D. from Georgia Tech, he completed a postdoctoral fellowship there, focusing on liquid metals under extreme conditions πŸŒ‘οΈπŸ”¬. Currently an Associate Professor at Taiyuan University of Technology, he leads studies on equations of state, entropy, and free volume evolution in high-pressure environments πŸ”πŸ“Š. Dr. Li regularly presents at global conferences like APS, CCMR, and CPS πŸŒπŸ“’, contributing cutting-edge insights to energy materials, thermal modeling, and phase transition science πŸ”§βš™οΈ.

🎀 Conference Presentation

Dr. Huaming Li has presented extensively on the thermodynamic behavior of liquid metals under high pressure at prestigious international conferences πŸ§ͺ🌍. His talks explore linear isotherm regularities, equations of state, and entropy and free volume evolution in metals such as sodium, potassium, indium, and iron under extreme conditions πŸ”¬πŸŒ‘οΈ. He has delivered findings at the APS March Meetings (USA), CCMR (South Korea), and CPS (China), showcasing his leadership in high-pressure materials research πŸ§ πŸ“Š. His work aids in the predictive modeling of metallic liquids, contributing to energy materials design and the understanding of phase transitions βš™οΈπŸ§―πŸ“ˆ.

βš™οΈ Research ExcellenceΒ 

Dr. Huaming Li has made groundbreaking contributions in the field of high-pressure thermodynamics by discovering linear isotherm regularities in liquid metals such as sodium, potassium, gallium, bismuth, and mercury πŸ§ͺ🧊. His work enables predictive modeling of thermodynamic properties, supporting advanced material design. He also developed theoretical frameworks for polymorphic melting and amorphization in binary solid solutions πŸ”„πŸ”¬. His investigations into anomalous heat capacity behaviors of liquid metals bridge fundamental science and practical engineering applications πŸ“˜πŸ”§. Published in top journals like AIP Advances and Physica B, his research is widely recognized and presented at international conferences πŸŒπŸ“Š.

πŸ”¬ Research Focus

Dr. Huaming Li’s research centers on the thermodynamics of liquid metals under high pressure βš™οΈπŸŒ‘οΈ, focusing on developing equations of state that describe linear isotherm behaviors in elements such as sodium, potassium, bismuth, and mercury πŸ§ͺπŸ”©. He investigates free volume evolution and entropy contributions in condensed matter, especially in glass-forming liquids and metallic alloys πŸ§ŠπŸ“ˆ. His work explores the structure-property relationships critical to predicting material behavior under extreme conditions, contributing to advancements in energy materials, solid-state physics, and high-performance alloys πŸš€πŸ”¬. This research bridges theoretical physics with practical materials engineering πŸŒπŸ› οΈ.

πŸ“š Publications

On Heat Capacity of Liquid Mercury Under Pressure
Authors: Huaming Li, Chaochao Bao, Xiaojuan Wang, Yanting Tian, Lin Feng, Ying Zhang, Yongli Sun, Mo Li
Journal: Physica B: Condensed Matter, 2025

Thermodynamic Properties of Liquid Bismuth Under Pressure: New Regularities and an Equation of State
Authors: Huaming Li, Lin Feng, Ying Zhang, Yanting Tian, Yongli Sun, Mo Li
Journal: AIP Advances, 2022

Linear Isotherm Regularities of Liquid Gallium Under Pressure
Authors: Huaming Li, Hao Ding, Yanting Tian, Yongli Sun, Mo Li
Journal: AIP Advances, 2021

Linear Isotherm Regularities of Solid Sodium Under Pressure
Authors: Huaming Li, Hao Ding, Yanting Tian, Yongli Sun, Shiwei Fang
Journal: AIP Advances, 2020

Regularities of Liquid Potassium at Different Temperatures
Authors: Huaming Li, Hao Ding, Yanting Tian, Yong Li Sun, Mo Li
Journal: AIP Advances, 2019

Nonlinearity Acoustic Parameters from Equation of State of Liquid Sodium Under Pressure
Authors: Huaming Li, Xiaoxiao Zhang, Yongli Sun, Mo Li
Journal: AIP Advances, 2017

Thermodynamic Properties of Liquid Sodium Under High Pressure
Authors: Huaming Li, Xiaoxiao Zhang, Yongli Sun, Mo Li
Journal: AIP Advances, 2017

Assist. Prof. Dr Tikaram Neupane | Materials Science | Best Researcher Award

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Assist. Prof. Dr Tikaram Neupane | Materials Science | Best Researcher Award

Assist. Prof. Dr. Tikaram Neupane is a physicist specializing in nonlinear optics and nanomaterials, focusing on tungsten and molybdenum disulfide atomic layers. πŸ”¬βœ¨ He holds a Ph.D. in Condensed Matter and Optical Physics and has secured research grants from NASA, DoD, and academic institutions. πŸ’ΌπŸ“š Dr. Neupane excels in advanced laser techniques, spectroscopy, microscopy, and computational modeling (DFT). πŸ’»πŸ”­ He actively leads scientific fairs, organizes conferences, and serves on editorial boards. πŸ†πŸ“Š With numerous publications and awards, including a UNESCO fellowship, he combines research excellence with strong community engagement and mentorship. πŸŒŸπŸ‘¨β€πŸ«

Assist. Prof. Dr Tikaram Neupane, University of North Carolina at Pembroke, United States

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Education πŸŽ“

Dr. Tikaram Neupane earned his Ph.D. in Condensed Matter and Optical Physics from Hampton University (2016–2020), focusing on third-order optical nonlinearity of tungsten and molybdenum disulfide atomic layers. πŸŽ“πŸ”¬ Prior to that, he completed an MS in Condensed Matter Physics at the University of Wyoming (2014–2015), deepening his expertise in advanced physics topics. πŸ“šβš›οΈ He also holds a Postgraduate Diploma in Earth System Physics from the International Center for Theoretical Physics, Trieste, Italy (2010–2011), where he worked on 2D modeling of mantle convection, exploring viscosity effects and multi-scale processes. πŸŒπŸŒ€

Experience

Dr. Tikaram Neupane completed his Ph.D. at Hampton University (2016–2020), studying nonlinear absorption/refraction, quantum dots, and all-optical switching in nanomaterials. πŸ”¬βœ¨ During his graduate work at the University of Wyoming, he assisted in solar cell efficiency characterization and perovskite optical simulations. β˜€οΈπŸ’» Since 2021, he has been Assistant Professor of Physics at UNC Pembroke, coordinating Applied Physics and recruiting students through regional science fairs. πŸŽ“πŸ“š He was a Postdoctoral Research Associate at the University of Southern Mississippi (2020–2021), focusing on ocean optics, color, and remote sensing with NASA’s Stennis Space Center. πŸŒŠπŸš€

Grants and Awards πŸ…

Assist. Prof. Dr. Tikaram Neupane is an award-winning physicist specializing in nonlinear optics and nanomaterials. πŸ…πŸ”¬ He secured prestigious research grants including the Dean’s Research Fund (2021), NC Collaboratory HMSI Award (2022), and PURC Center funding (2023–2025). πŸ’ΌπŸ“Š His honors include the Best Presentation Award at ICNST 2019, NASA & DoD-funded research assistantships (2016–2020), and a UNESCO Fellowship at ICTP, Italy (2010–2011). πŸŒπŸŽ“ Supported early by Tribhuvan University free-ship (2006–2008), he also held a Graduate Assistantship at the University of Wyoming (2014–2015). His work reflects sustained excellence in physics research and innovation. βœ¨πŸ”­

Book Chapter πŸ“–

Assist. Prof. Dr. Tikaram Neupane is a co-author of the 2024 book chapter in β€œAdvanced Graphene and Graphene Oxide Materials,” published by MDPI. πŸ“–πŸ§‘β€πŸ”¬ His expertise lies in condensed matter physics and nonlinear optics of nanomaterials like tungsten and molybdenum disulfide. βš›οΈβœ¨ Dr. Neupane combines advanced laser techniques, spectroscopy, and computational modeling to explore cutting-edge material properties. πŸ’‘πŸ”¬ His scholarly contributions extend beyond research articles to impactful academic publishing, reflecting his leadership in nanomaterials science. πŸŒπŸ“š He is dedicated to advancing knowledge in 2D materials and their innovative applications. πŸš€πŸ”—

Technical Skills πŸ–₯️

Expert in advanced laser systems including pico- and nano-second lasers (Shunami, Spectra-Physics, Continuum) and CW lasers (Diode, Ar, He-Ne, He-Cd). βš‘πŸ”† Skilled in nonlinear optics techniques like Z-scan, I-scan, spatial self-phase modulation, and four-wave mixing. πŸŒ€βœ¨ Proficient in Density Functional Theory (DFT) for electronic and optical property calculations of nanomaterials. πŸ’»πŸ“Š Experienced in spectroscopy (Raman, UV-Vis, photoluminescence) and microscopy (optical, XRD, AFM, TEM). πŸ”πŸ“ˆ Adept with data acquisition tools and optics instrumentation. Software skills include MATLAB, Origin, VASP, and Quantum Espresso. πŸ’ΎπŸ–₯️

Research Focus πŸ”

Dr. Tikaram Neupane’s research focuses on nonlinear optical properties of 2D nanomaterials such as graphene oxide, CdSe quantum dots, and hexagonal boron nitride. πŸ“ˆπŸ§ͺ His work explores third-order nonlinearity, self-phase modulation, and spin-resolved optical behavior using cutting-edge techniques like Z-scan and DFT simulations. πŸ”πŸ’‘ He investigates quantum optical effects for photonics and optoelectronics, pushing frontiers in nanophotonics, quantum materials, and ultrafast spectroscopy. βš›οΈπŸ“‘ Dr. Neupane’s contributions offer critical insights into the development of next-gen devices for optical communication, sensing, and quantum information technologies. πŸš€πŸ“±πŸŒ

Publications πŸ“š

Size-dependent fluorescence properties of CdSe quantum dots
πŸ‘₯ Authors: Uma Poudyal, Chandra Mani Adhikari, Nisha H. Makani, Bhoj Raj Gautam, Tikaram Neupane
πŸ“˜ Journal: Solid State Communications (2025)

Third-Order Optical Nonlinearity of Hexagonal Boron Nitride Atomic Layer
πŸ‘₯ Authors: Tikaram Neupane, Uma Poudyal, Bagher Tabibi, Felix Jaetae Seo
πŸ“˜ Preprint: Preprints.org (2024)

Cubic Nonlinearity of Graphene-Oxide Monolayer
πŸ‘₯ Authors: Tikaram Neupane, Uma Poudyal, Bagher Tabibi, Wan-Joong Kim, Felix Jaetae Seo
πŸ“˜ Journal: Materials (2023)

Dispersion in Single-Wall Carbon Nanotube Film: An Application of Bogoliubov–Valatin Transformation for Hamiltonian Diagonalization
πŸ‘₯ Authors: Chandra M. Adhikari, Da’Shawn M. Morris, Thomas W. Noonan, Tikaram Neupane, Basu R. Lamichhane, Bhoj R. Gautam
πŸ“˜ Journal: Condensed Matter (2023)

Spatial Self-Phase Modulation in Graphene-Oxide Monolayer
πŸ‘₯ Authors: Tikaram Neupane, Bagher Tabibi, Wan-Joong Kim, Felix Jaetae Seo
πŸ“˜ Journal: Crystals (2023)

Spin-Resolved Visible Optical Spectra and Electronic Characteristics of Defect-Mediated Hexagonal Boron Nitride Monolayer
πŸ‘₯ Authors: Sheng Yu, Tikaram Neupane, Bagher Tabibi, Qiliang Li, Felix Seo
πŸ“˜ Journal: Crystals (2022)