Guanqun Li | Engineering | Best Researcher Award

Posted on 17/04/202517/04/2025 by Physicist Particle

Dr. Guanqun Li | Engineering | Best Researcher Award

Associate Researcher at Shengli oilfield, SINOPEC, China

Guanqun Li (李冠群), born in May 1994 in Shandong, China 🇨🇳, is an Associate Researcher at Shengli Oilfield Company, SINOPEC 🛢️. He earned his PhD in Oil and Gas Field Development Engineering from China University of Petroleum (East China) 🎓. His work focuses on the microscopic characterization of shale reservoirs and fluid dynamics in oil and gas systems 🔬💧. With numerous publications in top journals like Fuel and Physics of Fluids 📚, he brings innovation to shale oil recovery technologies. Passionate about fractal modeling and fluid imbibition research, Guanqun Li is contributing significantly to modern energy development ⚙️🌍.

Professional Profile:

Scopus

🔹 Education and Experience

🎓 Sep. 2016 – June 2019: Master’s in Oil and Gas Field Development Engineering, Yangtze University
📚 Sep. 2019 – June 2023: PhD in Oil and Gas Field Development Engineering, China University of Petroleum (East China)
🏢 July 2023 – Present: Associate Researcher, Shengli Oilfield Company, SINOPEC

🔹 Professional Development

Dr. Guanqun Li 📘 has shown consistent professional growth, moving from academic research to applied industry innovation. His academic journey through Yangtze University and the China University of Petroleum provided a solid foundation in oilfield development ⚒️. At SINOPEC, he applies his expertise in reservoir simulation, fracturing mechanics, and fluid flow modeling 🔬. He actively contributes to peer-reviewed journals and international conferences 🌍. Guanqun continuously develops novel analytical and fractal models for imbibition in shale formations 🌀. His cross-disciplinary collaboration and technical excellence are hallmarks of his evolving career in the energy sector 🚀.

🔹 Research Focus Category

Guanqun Li’s research centers on unconventional oil and gas recovery, specifically shale oil reservoir characterization and fluid imbibition mechanisms 🛢️💧. His work explores microscale fluid motion, fractal modeling, and productivity analysis in hydraulically fractured formations 🔍📈. He is especially interested in the spontaneous and forced imbibition processes in complex porous media under various boundary conditions 🧪. His models help optimize horizontal well performance and support enhanced oil recovery (EOR) strategies 🧠⚙️. With a clear focus on improving efficiency in volume fracturing and fluid migration mechanisms, his research is highly impactful in modern petroleum engineering 🚧.

🔹 Awards and Honors

🏅 Interpore Conference Presentation (2020) – Recognized for outstanding research on production enhancement in fractured wells
📖 Multiple First-Author Publications – Published in top journals like Fuel, Physics of Fluids, and Energy & Fuels
🧠 Acknowledged for Innovative Fractal Modeling – In spontaneous/forced imbibition in shale formations
🥇 Highly Cited Review Paper – On EOR techniques in shale oil (Geofluids, 2021)

Publication Top Notes

Title: Quantifying lithofacies-dependent imbibition behavior in continental shale oil by fractal modeling: A case study of the gentle slope fault zone, Jiyang DepressionAuthors: Li Guanqun, Peng Yanxia, Yang Yong, Cao Xiaopeng, Su YuliangJournal: Fuel
Year: 2025

Conclusion

Dr. Guanqun Li stands out as an emerging leader in petroleum reservoir engineering with clear scientific originality, engineering relevance, and a solid record of first-author publications in high-impact journals. His work has contributed meaningfully to advancing the understanding of shale oil imbibition mechanisms and their application in field operations.

Svetislav Savovic | Engineering | Best Researcher Award

Posted on 18/12/202418/12/2024 by Physicist Particle

prof. Dr. Svetislav Savovic, University of Kragujevac, Serbia

prof. dr svetislav savovic is a distinguished physicist and professor at the university of kragujevac, serbia. With extensive expertise in optics, computational physics, and nuclear physics, he has contributed significantly to research in photonics, material science, and radiation measurements. He has collaborated with leading international institutions and is actively involved in advancing optical fiber technologies and experimental nuclear physics.

PROFILE

Scopus Profile

Educational Detail

PhD in Physics, university of kragujevac, serbia

MSc in Physics, university of belgrade, serbia

BSc in Physics, university of kragujevac, serbia

Professional Experience

Professor, university of kragujevac, faculty of science, serbia
December 2009 – present

Associate Professor, university of kragujevac, faculty of science, serbia
February 2004 – December 2009

Assistant Professor, university of kragujevac, faculty of science, serbia
September 1997 – February 2004

Visiting Professor/Researcher Positions:

Sapienza University of Rome, Italy (December 2019)

University of Applied Sciences, Leipzig, Germany (June 2018)

Polytechnic University of Hong Kong, Hong Kong (2015-2017, multiple terms)

City University of Hong Kong, Hong Kong (Senior Research Fellow, 3 years, 2000-2019)

Centre Recherche Nucleaires (CRN), Strasbourg, France (May-June 1991)

Aristotle University, Thessaloniki, Greece (Multiple terms, 1990-2009)

International Centre for Theoretical Physics, Trieste, Italy (1988-1990)

University of Poznan and University of Krakow, Poland (September-October 1990)

Teaching Experience

prof. savovic has extensive teaching expertise in the following areas:

Photonics

Metrology

Experimental techniques in physics

Numerical methods and simulations in physics

Informatics and computer programming

Laboratory of modern physics

Biophysics

Atomic physics

Monte-Carlo methods

Nuclear physics

Computational biophysics

Research Interests

Optics and photonics

Computational physics

Monte-Carlo methods

Partial differential equations

Experimental nuclear physics

Radiation measurements

Material science

Research Projects

Computer modeling of deflection-curvature sensors (1999-2000, Hong Kong)

Modal curvature gauge development (2000-2003, Hong Kong)

Mode coupling and power transfer in polymer optical fibers (2005-2009, Hong Kong)

Effects of gamma radiation on step-index plastic optical fibers (2011-2012, Hong Kong)

Advancements in W-type and graded-index plastic optical fibers (2013-2019, Hong Kong)

Characterization and design of photonic crystal fibers (2021-2025, Serbia, Hong Kong, UAE)

Nuclear Physics:

High-energy experimental nuclear physics (1997-2000, Serbia)

Standard Model parameter measurements and new particle searches (2006-2010, CERN, Geneva)

Member of the ATLAS collaboration at CERN (2006-2010)

Mathematics:

Numerical solutions for Stefan problems with accuracy and efficiency emphasis (2002-2003, Hong Kong)

Key Achievements

Long-term international collaborations across Europe and Asia.

Published groundbreaking research in optics and nuclear physics.

Developed innovative optical fiber technologies for sensing and data transmission.

Contributed to the ATLAS experiment at CERN, advancing particle physics research.

Top Notable Publications

Interference mitigation using optimised angle diversity receiver in LiFi cellular network
Zeng, Z., Chen, C., Wu, X., Safari, M., Haas, H.
Optics Communications, 2025, 574, 131125.
Citations: 0

Theoretical investigation of the space division multiplexing capacity of multimode step-index plastic optical fibers
Savović, S., Aidinis, K., Chen, C., Min, R.
Optik, 2024, 311, 171945.
Citations: 0

Influence of launch light beam conditions on the bandwidth in multimode graded-index microstructured POFs
Simović, A., Savović, S., Drljača, B., Chen, C., Min, R.
Applied Optics, 2024, 63(22), pp. 5926–5930.
Citations: 0

Enhancing OFDM with index modulation using heuristic geometric constellation shaping and generalized interleaving for underwater VLC
Zhao, Y., Chen, C., Zhong, X., Lin, B., Savović, S.
Optics Express, 2024, 32(8), pp. 13720–13732.
Citations: 5

Application of the power flow equation in modeling bandwidth in polymer optical fibers: a review
Drljača, B., Savović, S., Simović, A., Aidinis, K., Min, R.
Optical and Quantum Electronics, 2024, 56(4), 547.
Citations: 2

0.5-bit/s/Hz fine-grained adaptive OFDM modulation for bandlimited underwater VLC
Nie, Y., Chen, C., Savović, S., Zeng, Z., Shen, G.
Optics Express, 2024, 82(3), pp. 4537–4552.
Citations: 4

New method for the investigation of mode coupling in graded-index polymer photonic crystal fibers using the Langevin stochastic differential equation
Savović, S., Djordjevich, A., Aidinis, K., Chen, C., Min, R.
Frontiers in Physics, 2024, 12, 1479206.
Citations: 0

Wavelength dependent transmission in multimode graded-index microstructured polymer optical fibers
Simović, A., Savović, S., Wang, Z., Aidinis, K., Chen, C.
Frontiers in Physics, 2024, 12, 1340505.
Citations: 1

Theoretical and experimental investigation of the steady-state power distribution in multimode step-index plastic optical fibers
Dai, W., Savović, S., Zhao, C., Shao, R., Min, R.
Optical Fiber Technology, 2023, 81, 103531.
Citations: 2

Investigation of mode coupling in strained and unstrained multimode step-index POFs using the Langevin equation
Savović, S., Aidinis, K., Djordjevich, A., Min, R.
Heliyon, 2023, 9(7), e18156.
Citations: 1

Conclusion

Considering Prof. Dr. Svetislav Savovic’s vast academic qualifications, prolific research contributions, and impactful teaching and international collaborations, he is highly suitable for the Research for Best Researcher Award. His career epitomizes the values of innovation, academic excellence, and societal impact that the award seeks to honor.

Renwei Liu | Engineering | Excellence in Innovation Award

Posted on 08/11/202408/11/2024 by Physicist Particle

Dr. Renwei Liu | Engineering | Excellence in Innovation Award

Dr Renwei Liu, Jiangsu University of Science and Technology, China

Dr. Renwei Liu is a lecturer at Jiangsu University of Science and Technology, China, specializing in polar ships, ship-ice interaction, and marine engineering. His innovative research in peridynamics has made significant contributions to the understanding of ship-ice interactions, with numerous publications and patents. He is actively involved in both academic research and industry consultancy, working on cutting-edge projects related to Arctic operations and ice load modeling.

PROFILE

Google Scholar Profile

Educational Details

Dr. Renwei Liu earned his Bachelor’s and Ph.D. degrees in Naval Architecture and Marine Engineering from Harbin Engineering University (2012-2021). His academic foundation laid the groundwork for his deep expertise in marine engineering, particularly in the field of polar ship design and the application of peridynamics in ship-ice interaction.

Professional Experience

Since 2021, Dr. Liu has been serving as a lecturer at the School of Naval Architecture and Marine Engineering, Jiangsu University of Science and Technology. His expertise spans various areas of naval architecture, with a particular focus on ship-ice interaction and polar ship technology. He has also contributed to consultancy and industry projects related to ice load prediction and anti-icing technologies for polar ships.

Research Interests

Dr. Liu’s primary research interests include the application of the peridynamics method in ship and marine structures, with a particular emphasis on polar ships, ice load prediction, and anti-icing technologies for Arctic operations. His work also extends to marine platform design and structural optimization for ice navigation.

Research and Innovations

Dr. Liu’s pioneering work includes introducing the peridynamics method for calculating ship ice loads, which led to the development of a numerical model for ship and ice interaction. This work resulted in the publication of the first paper in the field. His ongoing research projects include studies on the failure modes of sea ice and technologies for ice load modeling and anti-icing for Arctic operations. Notable ongoing projects include research funded by the National Natural Science Foundation of China and the Ministry of Science and Technology.

Collaborations

Dr. Liu has co-authored multiple papers with researchers from various institutions, exploring topics like sea ice structure interaction, ice load predictions, and thermomechanical removal of ice from frozen structures. Some of his prominent collaborations include publications in China Ocean Engineering and Ocean Engineering on topics like ice load prediction for ships and the dynamic response of offshore wind turbines under ice impact.

Patents

Dr. Liu holds several patents related to marine engineering, including inventions for ice recognition devices, adjustable towing systems for ice pools, and methods for measuring ice crack sizes using deep learning. His patent portfolio demonstrates his innovative approach to solving complex challenges in marine engineering and ice navigation.

Top Notable Publications

A review for numerical simulation methods of ship–ice interaction
Authors: Y. Xue, R. Liu, Z. Li, D. Han
Published in: Ocean Engineering
Year: 2020
Citations: 84
DOI: 10.1016/j.oceaneng.2020.107853

Simulation of ship navigation in ice rubble based on peridynamics
Authors: R. W. Liu, Y. Z. Xue, X. K. Lu, W. X. Cheng
Published in: Ocean Engineering
Year: 2018
Citations: 84
DOI: 10.1016/j.oceaneng.2017.11.055

Experimental and numerical investigation on self-propulsion performance of polar merchant ship in brash ice channel
Authors: C. Xie, L. Zhou, S. Ding, R. Liu, S. Zheng
Published in: Ocean Engineering
Year: 2023
Citations: 58
DOI: 10.1016/j.oceaneng.2022.113424

Modeling and simulation of ice–water interactions by coupling peridynamics with updated Lagrangian particle hydrodynamics
Authors: R. Liu, J. Yan, S. Li
Published in: Computational Particle Mechanics
Year: 2020
Citations: 49
DOI: 10.1007/s40571-020-00267-2

Peridynamic modeling and simulation of coupled thermomechanical removal of ice from frozen structures
Authors: Y. Song, R. Liu, S. Li, Z. Kang, F. Zhang
Published in: Meccanica
Year: 2020
Citations: 26
DOI: 10.1007/s11012-020-01068-2

Numerical simulations of the ice load of a ship navigating in level ice using peridynamics
Authors: Y. Xue, R. Liu, Y. Liu, L. Zeng, D. Han
Published in: Computer Modeling in Engineering & Sciences
Year: 2019
Citations: 21
DOI: 10.32604/cmes.2019.12258

Broken ice circumferential crack estimation via image techniques
Authors: J. Cai, S. Ding, Q. Zhang, R. Liu, D. Zeng, L. Zhou
Published in: Ocean Engineering
Year: 2022
Citations: 20
DOI: 10.1016/j.oceaneng.2022.111735

Conclusion

Dr. Renwei Liu exemplifies the qualities of an outstanding candidate for the Research for Excellence in Innovation Award. His innovative research on peridynamics, his leadership in polar ship research, and his contributions to industry applications make him a deserving nominee. His work continues to shape the future of marine engineering, polar exploration, and sustainable ice navigation technologies.

Naoufel Ben Hamadi | Engineering | Excellence in Scientific Innovation Award

Posted on 25/10/202425/10/2024 by Physicist Particle

Prof. Naoufel Ben Hamadi | Engineering | Excellence in Scientific Innovation Award

Prof. Naoufel Ben Hamadi, Chemistry Department, College of Science, IMSIU, Imam Mohammad Ibn Saud Islamic University, P.O. Box 5701, Riyadh 11432, Saudi Arabia

Prof. naoufel ben hamadi is a distinguished professor of chemistry at IMSIU, specializing in organic synthesis, photochemistry, and environmental applications of chemistry. His research emphasizes sustainable technologies, and he serves as a reviewer for leading international journals, contributing to advances in organic and polymer chemistry.

PROFILE

Orcid Profile

Scopus Profile

Educational Details

Prof. naoufel ben hamadi has built a strong foundation in organic chemistry through comprehensive academic achievements at the Monastir Faculty of Sciences in Tunisia. He earned his Ph.D. in Organic Chemistry Sciences in 2008, graduating with the distinction of “Very Honorable with felicitation of the Jury.” Continuing his academic pursuit, he achieved his Habilitation à Diriger des Recherches (HDR) in Organic Chemistry in 2013, again with the highest honors and jury recognition. Prof. ben hamadi also holds a post-graduate diploma (2002) and a bachelor’s degree (2000) in Physics Sciences, both awarded with commendable grades.

Professional Experience

Prof. ben hamadi began his teaching career in 2003 as an Assistant at the Higher Institute of Technology Studies in Zaghouan, Tunisia. He advanced to Assistant Professor at Gabes Faculty of Sciences from 2008 to 2014. Since joining the College of Sciences at Imam Mohammad Ibn Saud Islamic University (IMSIU) in 2014, he has held positions as Associate Professor and, since 2023, full Professor. His teaching experience spans organic synthesis, photochemistry, and bioresource technology, among other fields within the discipline of chemistry.

Research Interest

Prof. ben hamadi’s research expertise encompasses various aspects of chemistry, particularly organic synthesis, photochemistry, polymer chemistry, textile dyeing, bioresource technology, and waste treatment. His work often emphasizes sustainable practices and innovative applications of organic compounds across different industries.

Peer Review Contributions

As a dedicated academic, Prof. ben hamadi contributes to the scientific community by acting as a peer reviewer for multiple international journals, including Letters in Organic Chemistry, Molecules, Arabian Journal of Chemistry, Natural Science, Scientific Research and Essays, Industrial Crops and Products, and the Journal of Cleaner Production.

Top Notable Publications

“Insights into Co (II)-based hybrid materials for photocatalytic and antioxidant applications”

Authors: Gassara, M., Hchicha, K., Mhadhbi, N., Hamadi, N.B., Boufahja, F.

Journal: Journal of Molecular Structure

Year: 2025

Volume/Issue/Page: 1319, Article 139458

Citations: 1

“Synthesis, structure, and luminescence properties of a 0D organic-inorganic cadmium iodide: Combined experimental and theoretical approach”

Authors: Fandouli, A., Hamadi, N.B., Guesmi, A., Houas, A., Rayes, A.

Journal: Journal of Molecular Structure

Year: 2024

Volume/Issue/Page: 1314, Article 138683

Citations: 0

“Erratum to ‘Synthesis, thermal, dielectric and electro-optic properties of new series of fluorinated hydrogen-bonded liquid crystals, [J. Mol. Liq. 367 (2022) 120510]’”

Authors: Derbali, M., Soltani, T., Guesmi, A., Jeanneau, E., Chevalier, Y.

Journal: Journal of Molecular Liquids

Year: 2024

Volume/Issue/Page: 407, Article 125246

Citations: 0

“A new non-centrosymmetric material (C5H9N3)[ZnBr4]·H2O : Molecular structure, characterization, optical properties, and biological activities”

Authors: Dammak, S.W., Tlili, H., Trabelsi, I., Hamadi, N.B., Naïli, H.

Journal: Journal of Molecular Structure

Year: 2024

Volume/Issue/Page: 1307, Article 137907

Citations: 1

“Novel composite from chitosan and a metal-organic framework for removal of tartrazine dye from aqueous solutions; adsorption isotherm, kinetic, and optimization using Box-Benkhen design”

Authors: El-Fattah, W.A., Guesmi, A., Hamadi, N.B., El-Desouky, M.G., Shahat, A.

Journal: International Journal of Biological Macromolecules

Year: 2024

Volume/Issue/Page: 273, Article 133015

Citations: 9

“Hydrothermal synthesis of (C5H14N2)[CoCl4]⸳0.5H2O: Crystal structure, spectroscopic characterization, thermal behavior, magnetic properties, and biological evaluation”

Authors: Walha, S., Mhadhbi, N., Ali, B.F., Costantino, F., Naïli, H.

Journal: Chemical Physics Impact

Year: 2024

Volume/Issue/Page: 8, Article 100597

Citations: 1

Conclusion

Masahiro Nishida | Impact Engineering | Best Researcher Award

Posted on 18/10/202418/10/2024 by Physicist Particle

Dr. Masahiro Nishida | Impact Engineering | Best Researcher Award

Prof. Masahiro Nishida, Nagoya Institute of Technology, Japan

Prof. Masahiro Nishida, currently a professor at Nagoya Institute of Technology, specializes in mechanical engineering with a focus on dynamic responses in solid structures, hypervelocity impacts, and the mechanical behavior of advanced and heterogeneous materials. He holds a Ph.D. from Tokyo Institute of Technology and has been active in academia since 1996, publishing over 60 papers in his field. He also serves as the General Manager of the Quality Innovation Techno-Center at Nagoya Institute of Technology.

PROFILE

Orcid Profile

Educational Details

B.E. in Mechanical Engineering (1991): Tokyo Institute of Technology.

M.E. in Mechanical Engineering (1993): Tokyo Institute of Technology.

Ph.D. in Mechanical Engineering (1996): Tokyo Institute of Technology, under the supervision of Professor H. Matsumoto. His thesis was titled “Evaluation Method of Mechanical Properties for Material by Phase-Sensitive Acoustic Microscope”.

Professional Experience

Prof. Nishida began his career as a Research Associate in the Department of Mechanical Science at Tokyo Institute of Technology from 1996 to 1997. He then joined Nagoya Institute of Technology as a Research Associate in 1997, working under Professor K. Tanaka. He progressed to Lecturer (2001-2004), Associate Professor (2004-2018), and has been a full Professor since 2018. In addition to his academic roles, he has served as the General Manager of the Quality Innovation Techno-Center at Nagoya Institute of Technology since 2022. He has also been a visiting researcher at Luleå University of Technology, Sweden, in 2009.

Research Interest

Effects of electron beam irradiation on hypervelocity impact behavior of carbon fiber reinforced plastic plates
Journal: Journal of Composite Materials
Published: December 2021
DOI: 10.1177/00219983211037049
Citations: Data not provided through Scopus.

Effects of the shapes and addition amounts of crosslinking reagents on the properties of poly‐3‐hydroxybutyrate/poly(caprolactone) blends
Journal: Journal of Applied Polymer Science
Published: June 2021
DOI: 10.1002/app.51210
Citations: Data not provided through Scopus.

Effect of chain extender on morphology and tensile properties of poly(l-lactic acid)/poly(butylene succinate-co-l-lactate) blends
Journal: Materials Today Communications
Published: March 2021
DOI: 10.1016/j.mtcomm.2020.101852
Citations: Data not provided through Scopus.

Correlative analysis between morphology and mechanical properties of poly-3-hydroxybutyrate (PHB) blended with polycaprolactone (PCL) using solid-state NMR
Journal: Polymer Testing
Published: November 2020
DOI: 10.1016/j.polymertesting.2020.106780
Citations: Data not provided through Scopus.

Correlative analysis between solid-state NMR and morphology for blends of poly(lactic acid) and poly(butylene adipate-co-butylene terephthalate)
Journal: Polymer
Published: 2020
DOI: 10.1016/j.polymer.2020.122591
Citations: Data not provided through Scopus.

Effects of deformation rate on tensile properties of ramie fiber/PLA/PBAT composites
Conference: ECCM 2018 – 18th European Conference on Composite Materials
Published: 2020
EID: 2-s2.0-85084162322
Citations: Data not provided through Scopus.

Effects of gamma ray irradiation on penetration hole in and fragment size from carbon fiber reinforced composite plates in hypervelocity impacts
Journal: Composites Part B: Engineering
Published: July 2019
DOI: 10.1016/j.compositesb.2019.04.007
Citations: Data not provided through Scopus.

Influence of impact angle on size distribution of fragments in hypervelocity impacts
Journal: International Journal of Impact Engineering
Published: June 2019
DOI: 10.1016/j.ijimpeng.2019.02.006
Citations: Data not provided through Scopus.

Conclusion

Prof. Masahiro Nishida is a highly qualified candidate for the Best Researcher Award. His strong educational background, extensive research experience, leadership roles, and cutting-edge research in dynamic material properties and hypervelocity impact make him a prominent figure in mechanical engineering. His research aligns well with current industrial needs, particularly in aerospace, sustainability, and material innovation, further enhancing his candidacy for such an award.

Slavko Đurić | Engineering | Best Researcher Award

Posted on 04/10/202404/10/2024 by Physicist Particle

Prof Dr. Slavko Đurić | Engineering | Best Researcher Award

Prof Dr. Slavko Đurić, Faculty of Traffic, Doboj, University of East Sarajevo, Bosnia and Herzegovina

Prof. Dr. Slavko Đurić is a distinguished full professor at the University of East Sarajevo in Bosnia and Herzegovina and the University of Novi Sad in Serbia. Specializing in applied mathematics, thermodynamics, and dynamic systems, he has made significant academic contributions, particularly in the areas of partial differential equations and calculus of variations. With over 50 scientific publications, including 21 in high-impact journals, Prof. Đurić has significantly influenced the scientific community. His dedication to education and research has been recognized by the Plaque of the Faculty of Transportation for his outstanding teaching and research efforts.

PROFILE

Educational Details:

Prof. Dr. Slavko Đurić earned his Doctorate of Technical Sciences, specializing in applied mathematics, thermodynamics, and dynamic systems. His academic journey has been rooted in the exploration of partial differential equations and their applications, as well as calculus of variations in mechanics and thermodynamics. Prof. Đurić has cultivated a deep understanding of these technical sciences, which has shaped his academic and professional contributions.

Professional Experience

Prof. Dr. Slavko Đurić is a full professor with extensive teaching and research experience at the Faculty of Technical Sciences in Novi Sad, Republic of Serbia, and the Faculty of Traffic in Doboj, University of East Sarajevo, Bosnia and Herzegovina. His academic expertise spans across various disciplines, including propagation of disturbances, thermodynamics, heat and mass transfer, and applied mathematics. In his teaching roles, Prof. Đurić has delivered comprehensive lectures on these subjects, fostering the next generation of engineers and technical scientists. His professional dedication to teaching and research excellence earned him the Plaque of the Faculty of Transportation for outstanding contributions in these areas.

Research Interest

Prof. Đurić’s research is centered around partial differential equations and their applications in mechanics and thermodynamics. He is particularly interested in dynamic systems and the calculus of variations, which play critical roles in advancing theoretical and applied research in engineering and technical sciences. Prof. Đurić has authored over 50 scientific papers, with 21 published in Science Citation Index (SCI) journals, highlighting his contributions to the field and his influence on global scientific knowledge.

Top Notable Publications

Conclusion

Alex Chandraraj | Engineering | Excellence in Research

Posted on 05/09/202416/09/2024 by Physicist Particle

Dr. Alex Chandraraj | Engineering | Excellence in Research

Dr. Alex Chandraraj, Kieluniversity, Germany

Dr. Alex Chandraraj is a post-doctoral fellow at Christian-Albrechts-Universität zu Kiel, Germany. He holds a Ph.D. in Physics, specializing in condensed matter physics and materials science. His research focuses on advanced materials, nanostructures, and their applications in renewable energy technologies. Dr. Chandraraj has authored several peer-reviewed publications in prestigious scientific journals and has presented his work at international conferences. He is dedicated to exploring innovative solutions to global energy challenges through material science.

PROFILE

Orcid Profile

Educational Details

Dr. Chandraraj earned his Ph.D. in Chemistry, specializing in electro-catalysis, from the Centre for Nano and Soft Matter Sciences, Bangalore, in 2022. His thesis, titled “Nanomaterials for Electrochemical Water Activation,” was supervised by Dr. Neena Susan John. He also holds an M.Sc. (2014) and B.Sc. (2012) in Chemistry from S.T. Hindu College, Nagercoil, affiliated with Manonmaniam Sundaranar University, where he was a university rank holder in both degrees.

Professional Experience

Dr. Alex Chandraraj has extensive experience in the field of electro-catalysis, having worked on various research projects focused on advanced nanomaterials and sustainable energy applications. Since February 2024, he has been a Post-doctoral Fellow at Christian-Albrechts-Universität zu Kiel, Germany, where he focuses on modifying nickel surfaces through wet-chemical deposition as part of the PrometH2eus project. His work aims to enhance the performance of nickel-based catalysts for energy-efficient applications. Prior to this, from August 2023 to January 2024, he was a Guest Researcher at the same institution, where he investigated oxide interface structures under real-time reaction conditions using operando surface X-ray diffraction techniques. Between February 2022 and July 2023, he served as a Project Associate at the Centre for Nano and Soft Matter Sciences in Bangalore, where he developed and characterized high-valent nickel-based electrocatalysts for urea electrolysis, emphasizing hydrogen production and energy efficiency. Additionally, as a Research Associate from August 2022 to January 2023, Dr. Chandraraj contributed to the development of nanomaterials for catalytic processes and renewable energy applications. His diverse research background underscores his expertise in electro-catalysis and nanomaterials for clean energy technologies.

Research Interest

Dr. Alex Chandraraj’s research focuses on electro-catalysis and advanced nanomaterials, with a particular emphasis on sustainable energy solutions. His work explores the use of nanomaterials and metal oxides in water splitting and electrochemical water activation, aiming to improve the efficiency of hydrogen production through oxygen and hydrogen evolution reactions. He is also deeply involved in urea electrolysis, where he investigates high-valent nickel-based catalysts to develop cost-effective and energy-efficient processes for hydrogen production from urea-based waste. Additionally, Dr. Chandraraj’s research addresses nitrate and oxygen reduction reactions by tuning metal oxidation states in catalyst systems, optimizing their performance for environmental and energy applications. His broader goal is to innovate in renewable energy by developing advanced nanomaterials and surface modifications that enhance the efficiency and durability of catalysts used in clean energy technologies.

Top Notable Publications

“Role of active redox sites and charge transport resistance at reaction potentials in spinel ferrites for improved oxygen evolution reaction”