Huan Liu | Earth Space Exploration | Research Excellence Award

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Prof. Huan Liu | Earth Space Exploration | Research Excellence Award

China University of Geosciences | China

Huan Liu is a Professor in automation and instrumentation with a strong academic foundation in electronic engineering and sensing technologies. He earned his PhD with research focused on high-precision magnetometers and completed joint doctoral training internationally. His professional experience spans academic research, teaching, and leadership in control technology and intelligent sensing. His research interests include magnetic field measurement, sensor arrays, instrumentation, multi-information fusion, and intelligent detection systems for environmental and security applications. He has received numerous national and international awards for research excellence, editorial service, and innovation. His work significantly advances precision sensing technologies and interdisciplinary engineering research.

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Featured Publications


A Multi-Parameter Integrated Magnetometer Based on Combination of Scalar and Vector Fields

– IEEE Transactions on Industrial Electronics, 2022

A New Digital Single-Axis Fluxgate Magnetometer According to the Cobalt-Based Amorphous Effects

– Review of Scientific Instruments, 2022

An Overview of Sensing Platform-Technological Aspects for Vector Magnetic Measurement: A Case Study of the Application in Different Scenarios

– Measurement, 2022

Anomaly Detection of Complex Magnetic Measurements Using Structured Hankel Low-Rank Modeling and Singular Value Decomposition

– Review of Scientific Instruments, 2022

Multi-Sensor Measurement and Data Fusion

– IEEE Instrumentation & Measurement Magazine, 2022

Zdzislaw Kaliniewicz | Seed Properties | Research Excellence Award

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Assoc. Prof. Dr. Zdzislaw Kaliniewicz | Seed Properties | Research Excellence Award

University of Warmia and Mazury in Olsztyn | Poland

Assoc. Prof. Dr. Zdzisław Kaliniewicz is an academic researcher and educator in technical and agricultural sciences at the University of Warmia and Mazury in Olsztyn, Faculty of Technical Sciences, Department of Vehicles and Machinery. He obtained a PhD in technical sciences in the field of construction and operation of machines, followed by a habilitation in agricultural sciences with specialization in agricultural engineering. His academic and professional experience focuses on teaching, research, and technological development related to agricultural and forestry machinery. His scientific activity is centered on theoretical and experimental studies aimed at improving the working processes, efficiency, and design of agricultural machines, with particular emphasis on seed cleaning, sorting, and separation technologies. A significant part of his research addresses the identification and application of physical properties of agricultural, horticultural, and forestry seeds to enhance seed quality and processing performance. His work also includes evaluation of field sprayer performance, analysis of factors affecting sowing quality, and the application of modern measurement techniques, such as 3D scanning, for monitoring food and biological products. He has authored 53 scientific documents, which have received 343 citations from 259 citing documents, resulting in an h-index of 11, demonstrating steady scientific impact. Overall, his contributions support innovation, efficiency, and quality improvement in agricultural engineering and mechanized crop production.

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Featured Publications

Ali Raza Shaikh | Mechanical Engineering | Research Excellence Award

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Mr. Ali Raza Shaikh | Mechanical Engineering | Research Excellence Award

Technical University of Darmstadt | Germany

Ali Raza Shaikh is a dedicated mechanical engineer and researcher specializing in fluid mechanics, heat transfer, ice adhesion, aerodynamics, and surface-interface science. He holds a B.Eng. in Mechanical Engineering, an M.Eng. in Power Engineering and Engineering Thermophysics, and is currently pursuing a Dr.-Ing. in Mechanical Engineering. With extensive research and practical experience, he has developed experimental setups, conducted thermal-fluid and droplet impact studies, and contributed to advancements in superhydrophobic and anti-icing surfaces. He has served as a research assistant in the MSCA-ITN SURFICE project, conducted industrial research internships, and held graduate research positions, collaborating on international projects and presenting findings at leading conferences. His technical expertise spans experimental design, surface characterization, high-speed imaging, and numerical simulations, complemented by proficiency in MATLAB, Python, LabView, CAD, and LaTeX. His research interests focus on ice adhesion dynamics, surface wetting, thermal-fluid interactions, and functional surface design. Ali has actively participated in workshops and training schools worldwide, contributing to knowledge exchange and innovation in engineering applications. His dedication to advancing research and practical solutions in fluid mechanics and surface science underscores his commitment to scientific excellence and technological development.

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Featured Publications


Transient testing of tensile ice adhesion

– Cold Regions Science and Technology, 2025

Ice adhesion dynamics in the tensile mode

– Smart Surface Design for Efficient Ice Protection and Control, 2025

The physics of icing

– Smart Surface Design for Efficient Ice Protection and Control, 2025

Understanding the physics of ice adhesion on complex substrates

– International Conference on Icing of Aircraft, Engines, and Structure, 2023

Weitao Yue | Engineering | Research Excellence Award

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Mr. Weitao Yue | Engineering | Research Excellence Award

China University of Mining and Technology | China

Mr. Weitao Yue is a Ph.D. candidate at the China University of Mining and Technology, specializing in Safety Science and Engineering with a focus on coal and rock dynamic disaster prevention and control. His research is dedicated to addressing critical challenges in coal mine safety, emphasizing the investigation of underlying mechanisms, monitoring and early warning systems, and the development of innovative control technologies for coal and rock dynamic disasters. He has actively contributed to multiple national-level major research projects, including the National Natural Science Foundation of China (NSFC) projects, National Key Research and Development Program projects, and National Major Scientific Instrument Development projects, where he played pivotal roles in theoretical innovation, experimental research, and data analysis. Mr. Yue has published seven high-impact SCI papers as first or corresponding author in top-tier journals such as International Journal of Mining Science and Technology, Engineering Geology, Rock Mechanics and Rock Engineering, Measurement, Journal of Central South University, and Physics of Fluids. Notably, two of his papers have been recognized as ESI Highly Cited, ranking among the top 1% most cited globally, reflecting his significant academic influence. His research provides theoretical foundations and technical solutions to enhance coal mine safety, contributing substantially to the advancement of mining engineering and disaster prevention technologies.

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Featured Publications

Feng, X., Yue, W., Cao, Z., Zhou, S., Cao, X., & Wang, E. (2026). “Multi-scale DEM simulation and experimental validation of water-saturated coal failure under variable-angle shear loading: Revealing hydrochemical coupling damage mechanisms.” Measurement. https://doi.org/10.1016/j.measurement.2025.119812

Feng, X., Yue, W., Zhao, X., Wang, D., Liu, Q., & Ding, Z. (2025). “Evolution law and risk analysis of fault-slip burst in coal mine based on microseismic monitoring.” Environmental Earth Sciences. https://doi.org/10.1007/s12665-024-12080-5

Hongyan Jin | Bioinformatics | Young Researcher Award

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Ms. Hongyan Jin | Bioinformatics | Young Researcher Award

Tarim University | China

Ms. Hongyan Jin dedicated and accomplished biologist with a strong foundation in plant molecular biology, bioinformatics, and physiological research. Holds a Master’s degree in Biology from Tarim University, with a cumulative GPA of 87.64, earning recognition as an Outstanding Graduate and recipient of multiple university-level scholarships. Academic training includes advanced courses in plant physiology, molecular and cell biology, biochemistry, bioinformatics, and biostatistics. Experienced in genome-wide identification and analysis of gene families, particularly the SnRK2 gene family in Populus euphratica, and proficient in total RNA extraction and qRT-PCR techniques. Research focuses on plant responses to abiotic stresses, integrating computational and experimental approaches to explore stress-responsive gene functions. Published research in the International Journal of Molecular Sciences, highlighting expertise in genome-wide bioinformatics analysis and molecular plant biology. Fluent in English (CET-6) and holds a Mandarin proficiency certificate, demonstrating strong communication skills. Recognized for academic excellence, diligence, and integrity, with a proactive and detail-oriented approach to research and professional responsibilities. Committed to continuous learning and tackling scientific challenges with rigor and persistence. Possesses a clear understanding of professional knowledge, strong integrative abilities, and a collaborative mindset, making significant contributions to plant biology and stress response research.

Profile : Scopus

Featured Publications

(2025). The identification and characterization of the PeGRF gene family in Populus euphratica Oliv. heteromorphic leaves provide a theoretical basis for the functional study of PeGRF9. International Journal of Molecular Sciences.

(2025). Genome-Wide Identification of the SnRK2 Gene Family and Its Response to Abiotic Stress in Populus euphratica

(2024).Comparative Genomics Analysis of the Populus Epidermal Pattern Factor (EPF) Family Revealed Their Regulatory Effects in Populus euphratica Stomatal Development

Punit Boolchand – Basic Science Research – Best Researcher Award 

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Prof. Punit Boolchand - Basic Science Research - Best Researcher Award 

University of Cincinnati - United States

Author Profile

Early Academic Pursuits

Prof. Punit Boolchand's academic journey began with a Master's degree in Physics from Punjab University, Chandigarh, India, in 1965. He then pursued his Ph.D. in Physics at Case-Western Reserve University, completing it in 1969. During his doctoral studies, Boolchand displayed a keen interest in the molecular structure of non-crystalline materials, which laid the foundation for his future research endeavors.

Professional Endeavors

Prof. Boolchand embarked on his professional career as a Teaching Assistant at Case-Western Reserve University from 1965 to 1969. He then transitioned to an Instructor position at the University of Cincinnati in 1969, subsequently climbing the academic ladder to become a full Professor of Physics and later branching out into Electrical and Computer Engineering.

Throughout his career, Boolchand held various visiting professorships, including stints at prestigious institutions such as Stanford University and Leuven University in Belgium. These experiences broadened his perspective and enriched his research pursuits.

Contributions and Research Focus On Basic Science Research

Prof. Boolchand's research interests spanned a wide array of topics, including the molecular structure of non-crystalline materials, optoelectronic materials, and high-temperature oxide superconductors. He conducted extensive investigations into the self-organization effects in disordered networks, shedding light on fundamental aspects of materials science.

Utilizing an arsenal of experimental methods ranging from Mössbauer spectroscopy to thermal analysis techniques, Boolchand made significant contributions to understanding the intricate properties of amorphous materials. His work delved into the coherent effects in nuclear radiation, providing valuable insights into the behavior of complex systems at the atomic level.

Accolades and Recognition

Prof. Boolchand's contributions to the field garnered widespread recognition, earning him numerous awards and honors. He received the prestigious George Rieveschl Jr. Award for Distinguished Scientific Research from the University of Cincinnati in 1995. Additionally, his election as a Fellow of the American Physical Society underscored the esteem in which his peers held him.

Impact and Influence

Prof. Boolchand's research not only advanced the frontiers of knowledge in materials science but also inspired a generation of scientists and engineers. His pioneering work in understanding the molecular structure of non-crystalline materials laid the groundwork for future breakthroughs in diverse fields ranging from electronics to energy storage.

Legacy and Future Contributions

As a distinguished academic and researcher, Boolchand's legacy continues to reverberate through the halls of academia. His insights into the self-organization of disordered networks and the properties of amorphous materials provide a roadmap for future exploration and innovation. Moving forward, his influence will endure as researchers build upon his foundational work to tackle the challenges of tomorrow.

In summary, Punit Boolchand's academic journey, prolific research output, and numerous accolades paint a portrait of a visionary scientist whose contributions have left an indelible mark on the field of materials science. His legacy serves as an inspiration for future generations of researchers seeking to unravel the mysteries of the atomic world.

Citations

  • Citations    15659
  • h-index       67
  • i10-index    199

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