Kai song | Water Resource Transformation | Young Scientist Award

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Dr. Kai Song | Water Resource Transformation | Young Scientist Award

Lecturer at Taiyuan University of Scicence and Technology | China

Dr. Kai Song is a dedicated and emerging researcher at Taiyuan University of Science and Technology, specializing in semiconductor optoelectronic materials, photocatalysis, and photoelectrocatalytic water splitting. With a strong foundation in nanomaterials and clean energy research, Dr. Song has significantly contributed to the development of innovative photoanodes and surface modification strategies to enhance solar-driven water purification and hydrogen production technologies. His research reflects deep scientific insight, consistent productivity, and growing international recognition.

Professional Profile 

Scopus

Google Scholar

Education Details

Dr. Kai Song holds a robust academic foundation in materials science and engineering, specializing in semiconductor optoelectronic materials. His formal education and training have been dedicated to advanced material synthesis, photocatalysis, and nanotechnology—establishing the groundwork for his contributions in photoelectrochemical systems and environmental remediation technologies.

Professional Experience

Dr. Song currently serves as a researcher and faculty member at Taiyuan University of Science and Technology, where he leads and participates in multiple national and institutional research projects. With hands-on roles in prominent NSFC-funded programs, he has actively contributed to the development of photoanodes, heterojunction structures, and nanomaterials for water splitting and pollutant degradation. His most recent leadership role is as Principal Investigator of a university-funded research project focused on band engineering for photoelectrocatalysis, demonstrating both scientific and managerial excellence.

Research Interests

Dr. Song’s research interests lie at the intersection of photocatalysis, photoelectrocatalysis, and environmental materials. His work centers around the synthesis and optimization of semiconductor nanomaterials, development of heterojunction systems, and innovation in in-situ cation exchange strategies for enhanced charge separation and surface reactivity. He aims to address critical challenges in solar water splitting, hydrogen production, and water pollutant degradation, aligning his research with sustainable energy and environmental goals.

Awards and Honors

Dr. Song has published over 30 peer-reviewed journal articles in top-tier international journals, with a total citation count of 1069, h-index of 19, and i10-index of 24, reflecting significant impact in his field. He has contributed as a lead author and co-author in journals such as Chemical Engineering Journal, ACS Applied Materials & Interfaces, Chem. Rev., and J. Mater. Chem. A. Though specific awards were not listed in the application, his active involvement in high-impact research projects and publishing record demonstrates a consistent trajectory of excellence and recognition in the scientific community.

Publications Top Noted

  1. In-situ surface reconstruction of BiVO₄/CuFe₂O₄ photoanode for efficient and robust solar water oxidation
    Chemical Engineering Journal, 2025.
    Citations: 5

  2. Surface Nd Sites Boost Charge Transfer of Fe₂O₃ Photoanodes for Enhanced Solar Water Oxidation
    ACS Applied Materials and Interfaces, 2025.

  3. Atomic adsorption mechanism and initial growth of 2D GaN on graphene, h-BN and MoS₂: A first principles study
    Surfaces and Interfaces, 2025.

  4. Toward Efficient Utilization of Photogenerated Charge Carriers in Photoelectrochemical Systems: Engineering Strategies from the Atomic Level to Configuration
    Journal Name, 2025. (Assuming name is missing—please update)

Conclusion

Dr. Kai Song stands out as a young and dynamic researcher with a clear vision for scientific advancement in sustainable technologies. His interdisciplinary expertise in material science, nanotechnology, and environmental engineering is evident in his prolific publication record and participation in nationally funded projects. With strong academic credentials, growing leadership in independent research, and a commitment to addressing environmental challenges through innovation, Dr. Song is a highly deserving candidate for the Young Scientist Award. His research not only contributes to academic advancement but also holds tangible promise for environmental sustainability and clean energy solutions.

 

 

Xiaojun Tang | Hydroinformatics | Best Researcher Award

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Prof. Dr. Xiaojun Tang | Hydroinformatics | Best Researcher Award

Professor at Xi’an Jiaotong University, China

Professor Xiaojun Tang is a distinguished researcher at Xi’an Jiaotong University, where he leads the Institute of Intelligent Detection Technology and Systems. With a strong focus on well and gas logging, spectral analysis, and intelligent sensors, he has made significant contributions to the field of applied hydrology and energy exploration. His groundbreaking work in applying FTIR spectroscopy to aquifer detection has introduced novel methods for identifying water layers in complex reservoirs, offering a major advancement over traditional resistivity techniques. Professor Tang has authored over 60 scientific papers, published 7 books, and holds 50 patents, reflecting both academic excellence and practical innovation. He has directed more than 50 research projects funded by national and provincial bodies, and has collaborated extensively with major industrial organizations such as PetroChina and CNOOC. Recognized with prestigious awards including the China Instrument Society Innovation Award and multiple provincial science and technology prizes, Professor Tang exemplifies interdisciplinary leadership in hydrological instrumentation and applied research.

Professional Profile 

Education

Professor Xiaojun Tang holds a Ph.D. in a field related to instrumentation science and technology, aligning with his expertise in intelligent detection systems and spectral analysis. He received his academic training at leading Chinese institutions, culminating in his current role as a professor at Xi’an Jiaotong University, one of China’s premier research universities. His educational background laid a strong foundation in engineering, applied physics, and sensor technology, which has supported his pioneering work in gas logging, aquifer detection, and intelligent instrumentation. Throughout his academic journey, Professor Tang has combined theoretical knowledge with practical innovation, shaping his role as both a researcher and educator in cutting-edge detection technologies.

Professional Experience

Professor Xiaojun Tang has extensive professional experience in the fields of intelligent detection technology, spectral analysis, and instrumentation science. He currently serves as a Professor at Xi’an Jiaotong University, where he also directs the Institute of Intelligent Detection Technology and Systems. Over his career, he has led more than 50 significant research projects, including national-level initiatives such as the National Key Scientific Instrument and Equipment Development Project and programs under the National Natural Science Foundation of China (NSFC). His work has bridged academia and industry through collaborations with major organizations like PetroChina, CNOOC, and the China Coal Research Institute, applying his innovations in gas sensing and well logging to real-world energy and mining operations. Professor Tang’s professional expertise is further demonstrated by his 50 patents, 60+ peer-reviewed publications, and service on the editorial board of Applied Science and Technology, establishing him as a leader in applied research and technological innovation.

Research Interest

Professor Xiaojun Tang’s research interests lie at the intersection of intelligent detection technologies, spectral analysis, and applied instrumentation, with a strong focus on energy exploration and hydrological applications. He specializes in exploration well gas logging, FTIR spectroscopy, and intelligent sensor systems, aiming to improve the accuracy and efficiency of subsurface fluid detection. His innovative work includes developing advanced methods for aquifer identification using infrared spectral signatures, particularly in complex, low-resistivity geological formations. Additionally, Professor Tang is deeply engaged in research related to coal mine gas safety and real-time monitoring systems, contributing to both environmental safety and resource evaluation. His interdisciplinary approach bridges the gap between fundamental research and industrial application, making significant impacts in the fields of hydrology, geoscience, and instrumentation engineering.

Award and Honor

Professor Xiaojun Tang has been recognized with numerous prestigious awards and honors for his contributions to scientific research and technological innovation. Notably, he received the First Prize of the Liaoning Science and Technology Progress Award and the Second Prize of the Shaanxi Science and Technology Achievement Award, reflecting provincial-level acknowledgment of his impactful work. In addition, he was honored with the Innovation Award from the China Instrument and Control Society, which highlights his significant achievements in developing advanced intelligent instrumentation and detection systems. These accolades underscore his leadership in interdisciplinary research and his role in advancing applied science within both academic and industrial domains.

Conclusion

Professor Xiaojun Tang presents a compelling nomination for the Best Researcher Award due to his pioneering research in spectral analysis for aquifer detection, prolific output, and impactful industry collaboration. While his work is highly innovative and influential within applied instrumentation and hydrocarbon exploration, slight limitations in hydrology-specific visibility and international academic reach should be weighed.

Publications Top Noted

  1. Title: Water vapor absorption peaks in infrared spectroscopic gas logging and correlation with water layers
    Authors: Li, Xiaoshan; Tang, Xiaojun; Huang, Zijian; Chen, Houqing; Wu, Tong
    Year: 2025
    Citations: 0

  2. Title: Characteristic Gases Detection Technology and Application of Buffer Layer Ablation Defects in XLPE Cables Based on FTIR
    Authors: Li, Xiaoshan; Tang, Xiaojun; Chen, Houqing; Gao, Jian; Ren, Zhigang
    Year: 2025
    Citations: 1

  3. Title: Topology and Control Strategy of Multi-Port DC Power Electronic Transformer Based on Soft Switching
    Authors: Zhang, Jialin; Zha, Kunpeng; Tang, Xiaojun; Li, Lanfang; Li, Jiafei
    Year: 2025
    Citations: 1

  4. Title: Hybrid TDOA/DOA Multiple PD Localization Using Two Arrays With KPCA-mnc-FastICA and Sparrow Search Algorithm
    Authors: Zhang, Zeyu; Tang, Xiaojun; Li, Xiaoshan; Liu, Chongzhi
    Year: 2025
    Citations: 0

  5. Title: Fourier Transform Infrared Spectrum Analysis of Free Gas in Power Transformer
    Authors: Wang, Yang; Han, Wei; Huang, Lianpeng; Liu, Yiying; Tang, Xiaojun
    Year: 2024
    Citations: 0

  6. Title: Species discrimination of β-phenylethylamine, NaCl and NaOH based on Ultraviolet spectroscopy and principal component analysis combined with improved clustering by fast search and find of density peaks algorithm
    Authors: Tong, Angxin; Zhu, Jinyang; Zhang, Qiang; Chen, Hong; Zhang, Feng
    Year: 2024
    Citations: 0

  7. Title: Detection Method for Short-circuit Fault of Flexible DC Transmission System Based on Virtual Power Ratio
    Authors: Li, Wenbo; Tang, Xiaojun; Zhang, Zeyu; Wang, Hao
    Year: 2024
    Citations: 2

  8. Title: Dynamic event-triggered dual-channel quantized sliding mode control for uncertain networked control systems under DoS attacks
    Authors: Liu, Chongzhi; Tang, Xiaojun; Zhang, Zeyu; Li, Xiaoshan; Li, Zhe
    Year: 2024
    Citations: 2

  9. Title: An adaptive event-triggered H∞ control framework for nonlinear networked control systems with dual-channel quantization
    Authors: Liu, Chongzhi; Tang, Xiaojun; Lu, Youshui; Zhang, Zhifen; Peng, Jingbo
    Year: 2024
    Citations: 1

  10. Title: Multiple ultrasonic partial discharge DOA estimation performance of KPCA Pseudo-Whitening mnc-FastICA
    Authors: Zhang, Zeyu; Tang, Xiaojun; Liu, Chongzhi; Li, Xiaoshan; Ren, Shuangzan
    Year: 2024
    Citations: 4

Guanhua Huang | Agricultural Hydrology | Best Researcher Award

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Prof. Dr. Guanhua Huang | Agricultural Hydrology | Best Researcher Award

Agricultural Hydrology at China Agricultural University, China

Prof. Guanhua Huang is a distinguished expert in irrigation, drainage, and subsurface hydrology, currently serving as a Professor at China Agricultural University and Director of the Chinese-Israeli International Center for Research and Training in Agriculture. With a PhD in Irrigation and Drainage from Wuhan University, his research spans agricultural water management, water-saving irrigation, agro-hydrological modeling, and the environmental impacts of climate change on water productivity. He has led over 40 national and international research projects and published more than 260 peer-reviewed papers, including over 130 in international journals. His work has earned him prestigious honors such as the Cheung Kong Scholars Chair Professorship and the Distinguished Young Scholar Award from the National Natural Science Foundation of China. A prolific innovator with 8 patents and 6 software copyrights, he has also received five ministry-level research prizes. Prof. Huang holds editorial roles in several leading journals and has made significant contributions to international scientific collaboration and leadership within professional societies.

Professional Profile 

Education

Prof. Guanhua Huang received his Ph.D. in Irrigation and Drainage from Wuhan University in 1995, where he specialized in agricultural water management and hydrological processes. His advanced education laid the foundation for his extensive research in subsurface hydrology, water-saving irrigation technologies, and the environmental impacts of agricultural water use. Throughout his academic journey, he has continuously expanded his expertise through national and international collaborations, which have further enriched his knowledge and influence in the field of agricultural engineering and water resources.

Professional Experience

Prof. Guanhua Huang has had an extensive and impactful professional career in the field of irrigation and agricultural water management. Since 1997, he has served as an Associate Professor and later as a full Professor at the Department of Irrigation and Drainage at China Agricultural University (CAU). He also held the position of Dean of the International College Beijing from 2010 to 2020, where he played a key role in promoting global academic exchange. Since 1998, he has been the Director of the Chinese-Israeli International Center for Research and Training in Agriculture, fostering international collaboration in sustainable agriculture. In addition, he has held prominent leadership roles, including Chairman of Agricultural Land and Water Engineering under the Chinese Society of Agricultural Engineering (2014–2022), and Chairman of the Land and Water Section of the International Commission of Agricultural and Biosystems Engineering (CIGR) from 2010 to 2014. His editorial contributions include serving as Associate Editor for Vadose Zone Journal and Irrigation Science, along with editorial roles in several other international and national journals.

Research Interest

Prof. Guanhua Huang’s research interests are centered around agricultural water management, with a strong emphasis on water-saving irrigation technologies and their environmental and ecological impacts. He is deeply engaged in the modeling of agro-hydrological processes, aiming to improve the understanding and efficiency of water use in agriculture. His work also explores the interactions between climate change, human activity, and water productivity, seeking sustainable solutions to water scarcity and environmental stress in agricultural systems. By integrating theoretical modeling with practical applications, his research contributes to the development of innovative strategies for enhancing water use efficiency and supporting sustainable agriculture under changing environmental conditions.

Award and Honor

Prof. Guanhua Huang has received numerous prestigious awards and honors in recognition of his outstanding contributions to agricultural engineering and water resources management. In 2012, he was appointed as a Chair Professor under the Cheung Kong Scholars Program by the Ministry of Education of China—one of the highest academic honors in the country. He was also awarded the title of Distinguished Young Scholar by the National Natural Science Foundation of China (NSFC) in 2011, highlighting his early and sustained excellence in research. Throughout his career, he has been honored with five ministry-level prizes for research achievements, demonstrating national recognition of the practical impact and innovation of his work. His leadership and academic reputation are further reflected in his roles within international scientific societies and editorial boards of prominent journals.

Conclusion

Prof. Guanhua Huang is highly suitable for the Best Researcher Award.His significant contributions to agricultural water management, innovation in irrigation technologies, leadership in international collaboration, and strong record of research and applied impact make him a very strong candidate. If complemented with citation metrics and highlights of recent major breakthroughs, his nomination would be even more compelling.

Publications Top Noted

  1. Title: Enhancing the representation of multi-level canal systems and reactive transport of nitrate in agro-hydrological modelling of arid irrigation districts
    Authors: R. Wang, D. Ren, S. Jessen, K.H. Jensen, G. Huang
    Year: 2025
    Citations: 0

  2. Title: Multi-objective optimization of agronomic practices to balance soil fertility, water productivity, and economic returns in saline-alkali farmlands
    Authors: L. Sun, J. He, P. Qi, Q. Huang, G. Huang
    Year: 2025
    Citations: 0

  3. Title: How do integrated agronomic practices enhance sunflower productivity and stability in saline-alkali soils of arid regions? Evidence from China
    Authors: L. Sun, Y. Wu, Y. Fan, Q. Huang, G. Huang
    Year: 2025
    Citations: 0

  4. Title: Effects of subsurface drainage and year-round irrigation on crop water-salt stress and yield in an arid region
    Authors: J. Liu, Q. Huang, Z. Hou, F. Xue, G. Huang
    Year: 2025
    Citations: 0

  5. Title: Contribution of Moisture Recycling to Water Availability in China
    Authors: Q. An, L. Liu, L. Wang, J. Liu, G. Huang
    Year: 2025
    Citations: 0

  6. Title: Analytical expressions of specific yield for shallow groundwater estimation and modeling
    Authors: X. Xiao, Y. Yang, D. Mu, G. Huang, X. Xu
    Year: 2025
    Citations: 0

  7. Title: Impact of Land Use Conversion on Soil Structure and Hydropedological Functions in an Arid Region
    Authors: J. Han, C. Pan, Y. Sun, Y. Xiong, G. Huang
    Year: 2025
    Citations: 1

  8. Title: Assessment of meteorological factors and human activities impact on wheat and maize water requirements in the Yellow River Basin
    Authors: X. Chen, Y. Lou, S. Hong, Q. Huang, G. Huang
    Year: 2024
    Citations: 1

  9. Title: Soil microbial community and associated functions response to salt stresses: Resistance and resilience
    Authors: Z. Chen, T. Zhou, G. Huang, Y. Xiong
    Year: 2024
    Citations: 3

  10. Title: Mechanistic Simulation of Salt-Affected Soil-Plant-Atmosphere Continuum Dynamics in Seasonally Frozen Regions
    Authors: Y. Xun, X. Xu, B.L. Kurylyk, D. Mu, G. Huang
    Year: 2024
    Citations: 0

 

Zeling Zhao | Sustainable Water Use | Best Researcher Award

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Dr. Zeling Zhao | Sustainable Water Use | Best Researcher Award

College of Mechanical & Energy Engineering, Beijing University of Technology, china

Zeling Zhao is a dedicated researcher in the field of mechanical engineering, specializing in material plastic forming and precision hydraulic transmission. Affiliated with the College of Mechanical & Energy Engineering at Beijing University of Technology, Zhao has contributed to the conservation and efficient utilization of non-ferrous metal resources through innovative research on titanium chip recycling. Their work includes the development of a double-toothed roller crusher, which has resulted in a published patent and two peer-reviewed SCI journal articles. While Zhao’s research demonstrates clear technical depth and industrial relevance, expanding academic output, collaborations, and professional engagement would further strengthen their research profile and broader impact in the field.

Professional Profile 

Education

Zeling Zhao has an academic background in mechanical engineering, with a focus on material plastic forming and precision hydraulic transmission. Their education has provided a strong foundation in the principles of mechanical systems and advanced manufacturing processes, equipping them with the technical skills necessary for conducting specialized research in material forming technologies. This educational grounding has enabled Zhao to pursue innovative work in the development of equipment for recycling titanium scraps, aligning with both industrial application and sustainable engineering practices.

Professional Experience

Zeling Zhao has professional experience rooted in academic research within the field of mechanical engineering, particularly focusing on material plastic forming and precision hydraulic transmission. Their work at the College of Mechanical & Energy Engineering, Beijing University of Technology, has centered on the development of innovative solutions for the efficient recycling of titanium waste. Notably, Zhao has led research on the design and optimization of a double-toothed roller crusher, contributing to both theoretical advancements and practical engineering applications. Although their profile does not currently include consultancy or industry project experience, Zhao’s contributions reflect a strong commitment to applied research and technological innovation.

Research Interest

Zeling Zhao’s research interests lie in the areas of material plastic forming and precision hydraulic transmission, with a particular focus on the recycling and utilization of non-ferrous metal resources. Their work aims to develop efficient mechanical solutions for processing industrial waste, such as titanium chips, through advanced forming techniques and equipment design. Zhao is especially interested in the optimization of crushing processes and the simulation of material behavior under mechanical stress, as demonstrated in their study and development of a double-toothed roller crusher. These interests reflect a strong commitment to sustainable engineering practices and the advancement of manufacturing technologies.

Award and Honor

As of now, Zeling Zhao has not listed any formal awards or honors in their academic or professional profile. However, their contributions to the field of mechanical engineering—particularly through the publication of SCI-indexed journal articles and the development of a patented double-toothed roller crusher for titanium chip recycling—reflect a growing recognition of their research potential. Zhao’s work demonstrates innovation and relevance, positioning them as a promising candidate for future awards and honors in engineering research and sustainable technology development.

Conclusion

Zeling Zhao shows promising potential as a researcher with a clear technical focus and innovative contributions, particularly in materials engineering and sustainability-focused applications. However, for the Best Researcher Award, which typically recognizes outstanding and wide-reaching academic and research contributions, Zhao’s current profile may be considered emerging rather than established.

Publications Top Noted

  1. Finite Element Simulation and Optimization of Process Parameters for Titanium Chip Crusher

    • Authors: Jianghua Huang; Zeling Zhao; Xiaomin Huang; Tao Liu; Ji Hongchao

    • Year: 2025

    • Journal: Materials

    • DOI: 10.3390/ma18091894

    • Citation: Multidisciplinary Digital Publishing Institute

  1. Mechanical Properties and Fracture Behavior of a TC4 Titanium Alloy Sheet

    • Authors: Zeling Zhao; Ji Hongchao; Yingzhuo Zhong; Chun Han; Xuefeng Tang

    • Year: 2022

    • Journal: Materials

    • DOI: 10.3390/ma15238589

    • Citation: Part of ISSN: 1996-1944

  1. Johnson-Cook Model for TC4 Titanium Alloy Based on Compression Experiment

    • Author: Zeling Zhao

    • Year: Not specified (likely 2023 based on sequence)

    • Journal: Metalurgija

    • Citation: Zeling Zhao (Preferred Source)