Imran Imran | Rewards & Recognition | Research Excellence Award

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Prof. Imran Imran | Rewards & Recognition | Research Excellence Award

Prof | The University of South China Agricultural University | China

Dr. Imran is an accomplished agronomist and climate-smart agriculture researcher whose work spans crop production, soil health, environmental sustainability, UAV aerodynamics in agriculture, and climate change impacts on agro ecosystems. With two international postdoctoral fellowships one in UAV & rotorcraft microclimate engineering  South China Agricultural University, China  and another in soil health, carbon sequestration, and climate change mitigation  Çukurova University, Turkey he has emerged as a leading contributor to advanced agricultural technologies and regenerative farming systems. His multidisciplinary expertise integrates crop science, plant physiology, soil ecology, nano agriculture, biochar technology, heavy metal remediation, phosphorus biofortification, and carbon-based soil amendments. Dr. Imran has authored several internationally published books spanning agronomy, UAV applications in agriculture, climate-smart strategies, soil restoration, and sustainable food systems, including multiple titles with Springer and Taylor & Francis. With 59 peer reviewed research articles published across high impact international journals, his scientific contributions cover rotor wind microclimate engineering, nano fertilizers, organic inorganic nutrient synergy, heavy metal mitigation, carbon dynamics, and climate resilient cropping systems. His work is widely recognized, with numerous publications in the Journal of Plant Nutrition, Communications in Soil Science and Plant Analysis, International Journal of Phytoremediation, Agriculture, Agronomy, and Scientific Reports.

Profile: ORCID 

Featured Publications

Imran, & Li, J. Crop interaction with UAVs.

Imran, & Li, J. Drone airflow dynamics and crop interaction.

Imran, & Li, J. Enhanced agricultural productivity: UAV-based technology for precision crop yield estimation and disease detection.

Imran, & Li, J. Environmental and economic impact of UAV technology in agriculture.

Imran, & Li, J. Environmental impact and sustainability.

Imran Muhammad | Learning & Development | Research Excellence Award

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Dr. Imran Muhammad | Learning & Development | Research Excellence Award

PostDoc | The University of Xinjiang University | China

Dr. Imran Muhammad is an accomplished researcher in advanced analytical chemistry, with a strong publication record comprising 35 scientific documents, 276 citations, and an h-index of 11. His work spans a diverse range of contemporary research fields, with a central focus on sensor technologies, analytical method development, and environmental monitoring. His expertise bridges multiple interdisciplinary domains, including fluorescent probe design, chemosensors, biosensors, polymer-based sensing platforms, computational chemistry, and catalysis. A significant portion of his research is dedicated to developing innovative sensing systems for detecting toxic environmental pollutants such as mercury ions nitroaromatics, dioxins, and heavy metals. He has made notable contributions to the design of dansyl-based fluorescent sensors, graphene oxide–based solid-phase sensing materials, and β-cyclodextrin inclusion complexes, offering enhanced selectivity, sensitivity, and environmental applicability. Providing an efficient tool for water-quality assessment. In addition to sensor development, his research extends to molecularly imprinted polymers photocatalytic nanomaterials, surface modification, solid-phase extraction, and advanced material synthesis. His studies in photocatalysis, catalytic pyrolysis of plastics, and nanostructured metal oxides contribute to sustainable technologies and environmental remediation. Dr. Muhammad’s technical skills span a broad array of analytical instruments, including Fluorescence spectroscopy, and supporting his capacity to conduct rigorous and high-impact experimental work. He also integrates computational studies to elucidate molecular interactions and sensing mechanisms, strengthening the theoretical foundation of his analytical methodologies. Through continuous publication in high-ranking journals and participation in global scientific discussions, he maintains a strong commitment to advancing analytical chemistry and environmental science, with research aimed at delivering practical, efficient, and sustainable technological solutions.

Featured Publication

Yao, N., Cai, Y., Li, J., Nulahong, A., Okitsu, Imran, M., & Ren, T. Enhanced low-temperature performance of CO₂ methanation over Ni-Y zeolite molecular sieve.

Khan, M. I., Kim, H. Y., Ali, R., & Miyazaki, S. A comparison of conventional aging and defect-assisted precipitation mechanisms in TiNiPdCu-based high-temperature shape memory alloys.

Rida, B. N., Bakhsh, N. Investigating the high-temperature oxidation of the Hf₀.₅Nb₀.₅Ta₀.₅Ti₁.₅Zr refractory high-entropy alloy. Journal of Thermal Analysis and Calorimetry.

Manwika Kongpuang | Rewards & Recognition | Best Researcher Award

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Assist. Prof. Dr. Manwika Kongpuang | Rewards & Recognition | Best Researcher Award

Engineering Lecturer | The University of Faculty of Engineering Prince of Songkla | Thailand

Dr. Manwika Kongpuang dedicated scholar in metallurgy and materials engineering, this researcher’s work focuses on advancing nondestructive testing and structural health monitoring technologies for improved material reliability and infrastructure safety. Their primary expertise lies in acoustic emission techniques, rail steel behavior, metal forming, and semi-solid processing bridging materials science and engineering applications to address industrial and transportation challenges. The research emphasizes the development of innovative diagnostic and monitoring approaches for metallic components, particularly in railway systems, enabling real-time defect detection, predictive maintenance, and performance optimization. The author’s contributions span several high-impact, peer-reviewed journals indexed in Scopus and Web of Science, including Nondestructive Testing and Evaluation, Results in Engineering, Sensors, and Transactions of the Indian Institute of Metals. Their studies have provided new insights into the relationships between microstructure, mechanical performance, and acoustic emission signals in metals under various loading and thermal conditions. Additionally, significant research has been devoted to improving the mechanical and tribological properties of metal matrix composites through advanced casting and heat-treatment processes. Through active participation in international conferences such as the World Conference on Acoustic Emission and the International Conference on Condition Monitoring and Asset Management, the researcher has contributed to global discussions on rail maintenance, digital twin technologies, and sustainable engineering solutions. Their interdisciplinary approach combines experimental investigation, data analysis, and materials characterization to develop efficient, data-driven methods for assessing and extending the life of engineering systems. Overall, the author’s research demonstrates a strong commitment to advancing intelligent condition monitoring, reliability-based maintenance, and sustainable materials innovation, contributing valuable knowledge to the fields of materials science, nondestructive evaluation, and infrastructure engineering.

Featured Publications

Kaewunruen, S., AbdelHadi, M., Kongpuang, M., Pansuk, W., & Remennikov, A. M. Digital twins for managing railway bridge maintenance, resilience, and climate change adaptation.

Kongpuang, M., Chaideesungnoen, S., Muangjunburee, P., Oo, H. Z., & Janudom, S. Effect of post-weld heat-treatment on microstructure and mechanical behavior of Inconel  overlay cladding on  Cr-1Mo steel. Transactions of the Indian Institute of Metals.

Muangjunburee, P., Poolsiri, N., Chaideesungnoen, S., Naultem, A., Oo, H. Z., & Kongpuang, M. Observation on the weld metal of resurfaced rail steel. Chiang Mai Journal of Science.

Kongpuang, M., Culwick, R., Cheputeh, N., Marsh, A., Jantara Junior, V. L., Vallely, P., Kaewunruen, S., & Papaelias, M. Quantitative analysis of the structural health of railway turnouts using the acoustic emission technique. Insight: Non-Destructive Testing and Condition Monitoring.