Ke Wang | Research Excellence | Research Excellence Award

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Dr. Ke Wang | Research Excellence | Research Excellence Award

Karlsruhe Institute of Technology | Germany

Ke Wang is a researcher in mechanics and metamaterials with advanced training from Harbin Institute of Technology and Karlsruhe Institute of Technology. His work focuses on nonlocal mechanical systems, roton-like dispersion relations, programmable metamaterials, and wave control, combining theoretical modeling, numerical simulation, and experimental validation. He has extensive expertise in metamaterial design, dispersion analysis, and multiscale modeling, with strong skills in MATLAB, Python, C++, and professional engineering software. His research spans mechanical, acoustic, and electromagnetic metamaterials, as well as applications in thermal regulation and smart structures. He has authored numerous high-impact journal publications, holds multiple patents, and actively contributes to international conferences and collaborative research initiatives.

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Zafran Ullah | Research Excellence | Best Researcher Award

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Mr. Zafran Ullah | Research Excellence | Best Researcher Award

Sunway University | Malaysia

Mr. Zafran Ullah is a dedicated PhD student at the School of Engineering, Sunway University, Malaysia, specializing in chemical engineering and sustainable chemical processes. He holds a Master’s degree in Chemical Engineering from Universitas Diponegoro (UNDIP), Indonesia, awarded through a fully funded UNDIP scholarship. With over four years of research experience in academia, Zafran has contributed significantly to the field, publishing more than eight articles in renowned international journals including Elsevier, Analytical Sciences, Springer, and The Journal of Biological and Chemical Luminescence. His research primarily focuses on biomass conversion into value-added chemicals via TiO₂ photocatalysis, bridging fundamental chemical engineering principles with applied sustainable technologies. He has completed and is engaged in three research projects, collaborating with five international researchers, and serves as a reviewer for multiple scientific journals. According to Scopus, he has 34 citations across 3 documents and an h-index of 2, reflecting the growing impact of his research contributions. Zafran’s work emphasizes innovation in green chemistry, photochemical catalysis, and industrially relevant biomass valorization, aiming to provide practical solutions for energy and chemical sustainability challenges. He actively participates in consultancy and collaborative research projects, contributing to knowledge dissemination through peer-reviewed publications and scientific collaborations. His ongoing studies and professional engagements demonstrate a strong commitment to advancing chemical engineering research with societal and environmental relevance.

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Ali Raza Shaikh | Research Excellence | Research Excellence Award

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

TU Darmstadt | Germany

Ali Raza Shaikh is a doctoral researcher in Mechanical Engineering at the Technical University of Darmstadt, Germany, specializing in fluid mechanics, ice adhesion, heat transfer, aerodynamics, and anti-icing surface technologies. His Ph.D. research focuses on the experimental study of ice adhesion in the tensile mode, with strong emphasis on surface–interface science and ice-phobic material design. He is an MSCA-ITN Research Assistant within the SURFICE project, where he established a dedicated Ice Adhesion Laboratory, developed advanced experimental setups, conducted high-precision measurements, and managed project activities, budgets, and international collaborations. Ali holds a Master’s degree in Power Engineering and Engineering Thermophysics from Jiangsu University, China, where his research combined experimental and numerical investigations of droplet impact on micro-textured superhydrophobic surfaces. He earned his Bachelor’s degree in Mechanical Engineering from Quaid-e-Awam University, Pakistan, with strong foundations in thermal sciences, fluid mechanics, aerodynamics, and machine design. His international research experience includes an industrial research internship at Rail Tec Arsenal, Austria, performing icing wind tunnel experiments under realistic cold-climate conditions. He has authored and co-authored peer-reviewed journal articles and book chapters on icing physics, superhydrophobic surfaces, and multiphase flow modeling. With expertise in advanced experimental diagnostics, surface characterization, and numerical analysis, Ali is an emerging researcher in ice-surface interactions and cold-region engineering technologies.

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Muhammad Imran Asghar | Research Excellence | Research Excellence Award

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Mr. Muhammad Imran Asghar | Research Excellence | Research Excellence Award

State Key Laboratory of Palaeobiology and Stratigraphy, Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences, China | China

Muhammad Imran Asghar is a PhD candidate specializing in Paleontology and Stratigraphy at the Nanjing Institute of Geology and Palaeontology (NIGPAS), Chinese Academy of Sciences, where he is pursuing advanced research from 2021 to 2026. His academic journey reflects a strong and consistent focus on fossil plants, palynology, and Permian stratigraphy, supported by rigorous training at leading institutions in China and Pakistan. He earned his Master’s degree in Paleontology and Stratigraphy from Jilin University (2018–2021), following a year of intensive Chinese language training at the same university, enabling him to actively engage in academic research and international collaboration in China. His foundational education includes a Bachelor’s degree in Applied Geology from the University of the Punjab, Lahore, complemented by pre-medical and science education from recognized boards in Punjab, Pakistan. Muhammad Imran Asghar’s research primarily concentrates on Permian paleobotany, particularly sigillarian lycopsids, in situ megaspores, bisporangiate strobili, and palynofloral assemblages from Inner Mongolia and Xinjiang, China. His work contributes significantly to understanding the reproductive biology, taxonomy, and evolutionary significance of Late Paleozoic plant groups, as well as their stratigraphic and paleoenvironmental implications. He has authored multiple peer-reviewed publications in reputable journals such as Review of Palaeobotany and Palynology and Global Geology, including the description of new genera and species, notably Bisigillariostrobus prolificus and Sublagenicula echinata. In addition to journal articles, he has actively presented his research at major international conferences, including the International Palynological Congress (IPC) and academic meetings of the Chinese Academy of Paleontology, highlighting his engagement with the global paleontological community. Through his integrative approach combining paleobotany, palynology, and stratigraphic analysis, Muhammad Imran Asghar is emerging as a promising researcher contributing to the reconstruction of Permian terrestrial ecosystems and the advancement of Paleozoic plant science.



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Olatunde Olatunji | Research Excellence | Research Excellence Award

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Prof. Olatunde Olatunji | Research Excellence | Research Excellence Award

Prof. Olatunde Olatunji | University of KwaZulu-Natal | South Africa 

Olatunde Stephen Olatunji is an accomplished analytical and environmental chemist with extensive academic, research, and industry experience spanning environmental monitoring, forensic chemistry, and advanced materials for pollution control. He is an Associate Professor in the School of Chemistry and Physics at the University of KwaZulu-Natal, where he has also served in key academic leadership roles, including Academic Leader for Research. His career reflects a strong balance between high-impact research, postgraduate supervision, curriculum development, and applied environmental problem-solving. His expertise lies in analytical method development and validation, trace and ultra-trace detection of environmental contaminants, and the assessment of chemical risks to human and ecosystem health. He has made significant contributions to the study of emerging contaminants such as pharmaceuticals, microplastics, PFAS, endocrine-disrupting compounds, and other contaminants of emerging concern across water, soil, air, food, and biological matrices. His work integrates chromatography, mass spectrometry, atomic spectroscopy, electrochemical sensing, and chemometric approaches to deliver robust, policy-relevant environmental data. A major focus of his research is the design and functionalization of carbon-based and hybrid nanomaterials for electrochemical sensing and photocatalytic remediation. These green nanotechnology-driven solutions target the detection, degradation, and removal of persistent and recalcitrant organic pollutants, contributing to sustainable water treatment and environmental protection strategies. His research also addresses pollutant fate, transport, bioavailability, toxicity, and ecological risk assessment. He has supervised a large number of undergraduate and postgraduate students, including master’s and doctoral candidates, many of whom have successfully completed their degrees and progressed into academic and professional careers. He is an active examiner of postgraduate theses across multiple universities and a member of several professional scientific bodies at national and international levels. Through extensive collaborations, high-quality peer-reviewed publications, and interdisciplinary engagement, he continues to advance analytical and environmental chemistry research with clear societal and environmental impact.

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Faezeh Parastesh | Research Excellence | Research Excellence Award

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Dr. Faezeh Parastesh | Research Excellence | Research Excellence Award

University of Manitoba | Canada

Faezeh Parastesh is a soil scientist with strong expertise in greenhouse gas emissions, soil nutrient management, and climate-smart agricultural systems. She is currently pursuing doctoral research in soil science at the University of Manitoba, focusing on nitrous oxide emissions from cropping systems with varying degrees of perennialization, aligned with global net-zero goals. Her academic background integrates advanced training in soil ecology, quantitative and non-traditional research methods, machine learning applications in agriculture, and climate-smart soil management. She holds a master’s degree in soil science from the University of Manitoba, where her research examined relationships between soil nitrous oxide concentrations and surface fluxes under diverse farming practices. She also earned a master’s degree in soil biology and biotechnology from the University of Tehran, specializing in vermicompost enrichment using phosphate-solubilizing bacteria to enhance phosphorus availability and crop uptake in calcareous soils. Her undergraduate training in soil science included research on wind erosion prediction systems, providing a solid foundation in soil conservation and land management. Faezeh has published in high-impact, peer-reviewed journals on topics including microbial consortia, plant defense mechanisms, phosphorus bioavailability, and sustainable soil management. She has also contributed to ongoing research on drought stress mitigation using biochar and plant growth-promoting rhizobacteria. Her work has been presented at national and regional scientific conferences, reflecting active engagement with the soil science research community. Professionally, she has extensive experience as a laboratory technician, graduate teaching assistant, and research intern. Her work spans field and laboratory sampling, soil and plant analysis, mentoring students, teaching soil and water management, and developing greenhouse gas prediction protocols for municipal applications. She is proficient in R, SAS, Python, and statistical modeling tools, and is skilled in experimental design, soil mapping, and land capability assessment. Recognized through multiple scholarships and awards, she is also actively involved in academic service, peer review, and outreach with farmers and researchers, demonstrating strong leadership and commitment to sustainable agriculture.

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Akbar Rahimi | Research Excellence | Research Excellence Award

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Assoc. Prof. Dr. Akbar Rahimi | Research Excellence | Research Excellence Award

University of Tabriz | Iran

Associate Professor Dr. Akbar Rahimi is a senior academic and researcher in the field of Urban and Regional Planning at the University of Tabriz, Iran, affiliated with the Faculty of Planning and Environmental Science. His scholarly work bridges urban planning, environmental sustainability, and spatial analysis, with a strong emphasis on green infrastructure, nature-based solutions, urban thermal comfort, and social equity in cities. Dr. Rahimi has made substantial contributions to understanding how urban form, land-use change, and green spaces influence environmental quality, climate resilience, and human well-being. His research integrates advanced methods such as remote sensing, GIS, artificial neural networks, AI-driven data analysis, and scenario modeling to address complex urban challenges including urban heat islands, air pollution, sustainable land management, and climate adaptation. A defining feature of his work is the focus on vulnerable populations and social justice, particularly gender equity and socio-economic disparities in access to urban ecological services. He has authored and co-authored an extensive body of peer-reviewed journal articles and book chapters in high-impact international and national journals, covering topics such as urban agriculture, green roofs, climate-resilient trees, urban parks, tourism impacts on ecosystems, and future-oriented regional planning. His interdisciplinary collaborations span environmental science, geography, ecology, urban forestry, and smart city development, reflecting a holistic approach to sustainable urban systems. In addition to his publications, Dr. Rahimi is an active contributor to international and national conferences, where he has presented full papers, posters, and invited talks on urban ecology, nature-based solutions, intelligent systems, and sustainable city planning. His work has influenced both academic discourse and practical planning perspectives, particularly in rapidly urbanizing regions.

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Caoming Fan | Research Excellence | Research Excellence Award

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Dr. Caoming Fan | Research Excellence | Research Excellence Award

Tsinghua University | China

Caoming Fan is a postdoctoral researcher in the Department of Electronic Engineering at Tsinghua University, working in the PNT Laboratory under the supervision of Prof. Zheng Yao. He holds a doctoral degree in Circuits and Systems from the School of Microelectronics, Shandong University, and has received comprehensive academic training spanning electronic engineering, microelectronics, and geodesy. His interdisciplinary background enables him to bridge theoretical signal processing with practical high-precision positioning applications. Dr. Fan’s research focuses on GNSS and pseudolite-based precise positioning technologies, with particular emphasis on ambiguity resolution, real-time kinematic and PPP/PPP-RTK methods, and error modeling. He has made notable contributions to ground-based and pseudolite-augmented GNSS systems, addressing challenges in indoor and complex environments where conventional satellite navigation performance is limited. His work also extends to GNSS and pseudolite receiver design, baseband signal processing, and multi-sensor fusion, supporting robust, high-accuracy navigation solutions. He has published multiple peer-reviewed articles in leading international journals, including Journal of Geodesy and GPS Solutions, covering topics such as pseudolite system augmentation, ground-based PPP-RTK frameworks, calibration techniques for indoor positioning, and phase correction modeling. His early research also contributed to understanding satellite attitude effects on phase wind-up in precise point positioning, reflecting a strong foundation in both theoretical modeling and applied geodesy. Dr. Fan’s academic excellence and research innovation have been recognized through several prestigious awards at national conferences in satellite navigation and location-based services, as well as competitive innovation and entrepreneurship platforms. He has also received a highly competitive national doctoral scholarship. With strong expertise in high-precision navigation, signal processing, and system integration, Dr. Fan continues to advance next-generation positioning, navigation, and timing technologies, contributing to both academic research and practical GNSS/pseudolite applications in challenging environments.

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Lu Hongbin | Research Excellence | Research Excellence Award

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Dr. Lu Hongbin | Research Excellence | Research Excellence Award

State Key Laboratory of Coal Conversion | China

Hongbin Lu is an accomplished environmental engineer specializing in water environment治理, ecological restoration, and pollution control technologies. He holds a doctoral degree in Environmental Engineering jointly awarded by Beijing Normal University and the Chinese Research Academy of Environmental Sciences. He currently serves as an Assistant Researcher at the National Key Laboratory of Coal Clean and Efficient Utilization, Institute of Coal Chemistry, Chinese Academy of Sciences, and acts as a Guest Expert at the Innovation Center for Ecological Protection and Restoration in the Middle Yellow River under the Ministry of Natural Resources. Dr. Lu has established a strong research profile with a substantial body of peer-reviewed publications in high-impact international environmental journals. A significant portion of his work appears as first or corresponding author, reflecting his leadership in scientific innovation and research design. His publications include SCI-indexed articles and a featured cover paper, highlighting the visibility and impact of his research within the global environmental science community. In addition to academic publishing, Dr. Lu demonstrates exceptional innovation capacity through extensive intellectual property achievements. He holds numerous authorized patents, including multiple invention patents, and is the first inventor on several additional invention patent applications. His research outputs have been translated into practical guidance, most notably through his key contribution to nationally adopted technical guidelines on water quality purification using constructed wetlands. These guidelines have been widely implemented, supporting ecological restoration and water quality improvement across diverse regions. Dr. Lu is actively engaged in academic service and leadership. He serves as a Guest Editor for an international journal and regularly reviews manuscripts for well-regarded environmental science publications. He also plays an important role in advancing disciplinary development by contributing to major national academic conferences as a scientific committee member and session chair or organizer. Furthermore, he has led and significantly contributed to multiple competitive research projects supported by national and provincial funding agencies, reinforcing his reputation as a leading young scholar with strong scientific, technological, and societal impact.

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Arezoo Taghizadeh-Toosi | Research Excellence | Research Excellence Award

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Dr. Arezoo Taghizadeh-Toosi | Research Excellence | Research Excellence Award

Danish Technological Institute | Denmark

Arezoo Taghizadeh-Toosi is an accomplished soil scientist with extensive international experience in agricultural and environmental research. Her work focuses on understanding and managing soil carbon and nitrogen dynamics in both mineral and organic soils, with particular emphasis on sustainable agricultural systems. She has developed strong expertise in mitigating gaseous emissions from soils, including ammonia volatilization and greenhouse gases such as carbon dioxide and nitrous oxide, contributing significantly to climate-smart agriculture initiatives. Her research portfolio includes advanced investigations into the role of biochar in soils, combining experimental measurements with process-based and statistical modelling approaches. She is particularly skilled in applying and developing models for soil carbon turnover and nutrient cycling, supporting evidence-based decision-making in land management and environmental policy. In addition, her work addresses complex interactions between soil iron, sulfur, carbon, and nitrogen cycles, as well as phosphorus accumulation and spatial distribution in intensively managed agricultural landscapes. Arezoo has held senior and research scientist positions across leading research institutions in Europe, Oceania, and Asia, reflecting a strong global research profile and interdisciplinary collaboration. She has contributed to both academic and applied research environments, bridging fundamental soil science with practical solutions for agriculture, digitalization, and environmental sustainability. Her experience also includes academic teaching and international visiting appointments, demonstrating her commitment to knowledge exchange and capacity building. She is an active contributor to the scientific community, serving as an expert reviewer for international funding bodies and participating in grant review panels. Her professional service extends to conference leadership and certified research-based consultancy for the public sector. With a strong publication record, high citation impact, and recognized expertise, Arezoo Taghizadeh-Toosi is a leading figure in soil biogeochemistry and sustainable land-use research.

 

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