Xiaoli Ren | Antibiotic Residue Treatment | Best Researcher Award

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Prof Dr. Xiaoli Ren | Antibiotic Residue Treatment | Best Researcher Award

Research and Innovation:

  • With approximately 50 published papers, 20 patents, and two academic monographs, Professor Li’s contributions to scientific literature and intellectual property are extensive. His research on biochar and its applications in wastewater treatment demonstrates both environmental impact and innovative approaches to resource utilization.
Prof Dr. Xiaoli Ren, Taiyuan Institute of Technology, China

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🌱EARLY ACADEMIC PURSUITS

  • Professor Xiao Li graduated with a doctoral degree in biomass resource utilization from Tianjin University in 2006. This foundation in environmental and chemical engineering provided a robust knowledge base and positioned Professor Li to address environmental challenges through innovative research into biomass resource utilization.

💼PROFESSIONAL ENDEAVORS

  • Currently serving as a Professor at Taiyuan Institute of Technology, Xiao Li supervises master’s students and contributes significantly to the institution’s research agenda. As an active member of the Academic Committee and the Standing Committee of the Science and Technology Association at Taiyuan Institute, Professor Li has been instrumental in fostering a collaborative and rigorous research environment.

🔬CONTRIBUTIONS AND RESEARCH FOCUS 

  • Professor Li’s research has concentrated on converting waste biomass into biochar, with applications for wastewater treatment and pollution management. This research addresses both environmental protection and resource sustainability, examining the adsorption mechanisms of biochar for pollutant removal. Through projects sponsored by the Science and Technology Department of Shanxi Province and collaborative industrial projects, Professor Li has pioneered methods that utilize waste biomass, reducing environmental waste and promoting renewable resource use.

📚ACADEMIC CITES 

  • With over 50 published research papers, two books, and 20 patents, Professor Li’s scholarly contributions are well-recognized. Research findings have been shared widely, particularly through journals like Desalination and Water Treatment and Environmental Science and Pollution Research, establishing a respected academic profile and a high citation impact. This breadth of published work reflects Professor Li’s influential voice in the fields of environmental science and waste-to-resource technology.

🌍IMPACT AND INFLUENCE

  • Xiao Li’s research outcomes have profound implications for environmental management and industrial applications. Innovations include biochar technology to purify wastewater, and collaborative projects have translated research into practical applications, such as formaldehyde removal from indoor environments and non-sintered brick production from chemical sludge. These projects underscore Professor Li’s role in advancing sustainable industrial processes.

🌟LEGACY AND FUTURE AND CONTRIBUTIONS

  • The legacy of Professor Xiao Li’s work lies in the integration of waste material utilization with environmental stewardship. Moving forward, Professor Li aims to expand on this legacy, pursuing innovations that further refine biochar applications and enhance sustainable practices in environmental engineering. This commitment to advancing eco-friendly and cost-effective solutions positions Professor Li as a key figure in the ongoing development of green technologies.

📄Publications

  • Strong water-resistant Co-Mn solid solution derived from bimetallic metal–organic frameworks for catalytic destruction of toluene
    Authors: Lei, J., Huang, Y., Bai, B., Cheng, L., Wang, S.
    Journal: Chinese Journal of Chemical Engineering, 2024, 75, pp. 142–151
  • Catalytic oxidation of toluene-acetone mixture over MnOx/Cu foam monolithic catalyst: Strong Cu-Mn interaction and amorphous phase
    Authors: Huang, Y., Lei, J., Bai, B., Wang, S., Li, J.
    Journal: Journal of Environmental Chemical Engineering, 2024, 12(5), 113843
  • Optimization of Extraction Process of Polysaccharide from Sophora japonica by Compound Enzyme Method and Its Antioxidant Activity
    Authors: Ren, X., Yang, L., Qiao, P., Dai, Q., Zhang, X.
    Journal: Science and Technology of Food Industry, 2024, 45(7), pp. 8–14
  • Removal of cefuroxime from aqueous solution by biochars derived from antibiotic mycelial residue
    Authors: Ren, X., Li, Y., Feng, T., Lei, J., Cheng, L.
    Journal: Environmental Science and Pollution Research, 2024
  • Preparation of activated carbon from Cephalosporin Mycelia Residue and its adsorption performance for cephalosporin antibiotics
    Authors: Ren, X., Feng, T., Lei, J., Cheng, L.
    Journal: Desalination and Water Treatment, 2024, 317, 100105

Feng Jiang | Civil Engineering | Best Researcher Award

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Mr. Feng Jiang | Civil Engineering | Best Researcher Award

Research Contributions:

  • Jiang has a substantial record of publications in reputed civil engineering journals, indicating his consistent contributions to structural design, sustainability, and infrastructure resilience. His published work addresses key challenges in civil engineering, including urban infrastructure, material science, and safety in construction, which are critical to the field.
Mr. Feng Jiang ,Shandong University of Science and Technology , China

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🌱EARLY ACADEMIC PURSUITS

  • Mr. Feng Jiang began his academic journey in the field of Civil Engineering, laying a strong foundation in structural engineering principles and design while affiliated with the Department of Civil Engineering at Shandong University of Science and Technology. His early education was marked by a commitment to mastering both theoretical and practical aspects of civil engineering, which would become essential in his future research endeavors.

💼 PROFESSIONAL ENDEAVORS

  • In addition to his work at Shandong University of Science and Technology, Feng Jiang has collaborated with various institutions to expand his research scope and practical experience. His professional journey includes engagements in consulting roles, academic collaborations, and advisory positions, allowing him to bridge the gap between academia and industry. This network of professional experiences has enriched his perspective, providing insights into the real-world challenges and innovative solutions in civil engineering.

🔬CONTRIBUTIONS AND RESEARCH FOCUS 

  • Mr. Feng Jiang’s research centers on structural engineering, material science, and sustainable construction practices. His primary areas of interest include the development of innovative construction materials, resilience in infrastructure, and advanced computational modeling for structural analysis. Noteworthy contributions include:
    • Innovative Materials: Feng Jiang has explored the use of sustainable materials in construction to reduce environmental impact.
    • Structural Resilience: His studies have provided new insights into enhancing the durability and safety of civil structures, particularly under stress from natural and man-made forces.
    • Computational Modeling: Leveraging cutting-edge software, he has contributed to the development of sophisticated models that predict structural performance under various scenarios.

    These contributions are often cited as pioneering advancements in the civil engineering field, providing new methods to enhance the reliability and sustainability of construction practices.

 📚ACADEMIC CITES 

  • As an emerging scholar, Peng Tian has received citations in journals and conferences related to power electronics and sustainable automation practices. His research is gaining recognition for its practical applications, particularly in China’s growing intelligent brewing sector. By bridging automation with sustainability, his academic work is cited by peers interested in environmentally friendly technological advancements.

🌍IMPACT AND INFLUENCE

  • Feng Jiang’s research contributions have been widely recognized and cited in top-tier civil engineering journals, with a high citation index that reflects the influence of his work in the field. His most cited publications often address issues such as infrastructure resilience and the development of environmentally friendly construction materials, underscoring the broad applicability of his research across multiple sub-disciplines within civil engineering.

🌟LEGACY AND FUTURE AND CONTRIBUTIONS

  • Mr. Feng Jiang’s work has not only contributed to present-day advancements but has also paved the way for future research. His pioneering efforts in sustainable construction and structural modeling are expected to influence the field for years to come. As an active contributor to academic conferences and a mentor to students, his legacy in civil engineering is both expansive and enduring. Future projects will likely see him exploring new materials and innovative techniques, continuing to inspire sustainable development and resilience in civil infrastructure.

📄Publications

  • Shear Damage Mechanisms of Jointed Rock Mass: A Macroscopic and Mesoscopic Study
    Authors: Wang, G., Liu, W., Jiang, F., Xiao, Z., Zheng, C.
    Journal: Scientific Reports, 2024, 14(1), 8619
  • A Rapid Evaluation Method of Blasting Effect Based on Optimized Image Segmentation Algorithm and Application in Engineering
    Authors: He, P., Xu, Y., Jiang, F., Xiao, Z., Zheng, C.
    Journal: Scientific Reports, 2024, 14(1), 4783
  • Research on the Deformation Laws of Buildings Adjacent to Shield Tunnels in Clay Strata
    Authors: Cai, L., Shi, K., Jiang, F., Zhang, S., Wu, Y.
    Journal: Scientific Reports, 2024, 14(1), 265
  •  Analysis of Progressive Collapse Disaster and Its Anchoring Effectiveness in Jointed Rock Tunnel
    Authors: Zheng, C., He, P., Wang, G., Xiao, Z., Ma, Z.
    Journal: International Journal for Numerical and Analytical Methods in Geomechanics, 2024, 48(16), pp. 3876–3908
  • Quick and Reliable Approach for Rating Underground Engineering Rock Mass Based on RMR System
    Authors: He, P., Li, Z.-K., Jiang, F., Yang, C.-X., Jiang, Z.
    Journal: Applied Geophysics, 2024

Jiangbin Su | Electrochromic Technology | Best Researcher Award

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Prof Dr.Jiangbin Su | Electrochromic Technology | Best Researcher Award

Innovation and Patents:
  • Dr. Su has applied for 20 invention patents, showcasing his innovative contributions to technology development. His work in electrochromic materials and nanotechnology has practical applications, especially in energy-efficient devices, which align with contemporary technological needs.
Prof Dr. Jiangbin Su , Xinyu University, China

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🏛️Early Academic Pursuits

  • Jiangbin Su, PhD, embarked on his academic journey with a focus on materials science, nanotechnology, and physics. His early work laid the foundation for his specialization in electrochromic materials and devices, energy storage technologies, and nanophysics. Throughout his academic career, Su demonstrated a strong commitment to research excellence, publishing nearly 100 academic papers in SCI and EI journals. His dedication to understanding material behavior at the nanoscale has been a key driver in his academic development.

👨‍🔬 PROFESSIONAL ENDEAVORS

  • Su currently serves as a faculty member at Xinyu University, his research output speaks volumes about his leadership in the field. He has applied for 20 invention patents and has played a pivotal role in both national and provincial-level natural science foundation projects, leading or contributing to five major initiatives. Additionally, Su has taken on various editorial roles, including being a member of the editorial board for the Journal of Electronics and Telecommunication Engineering, the Journal of Liaocheng University (Natural Science Edition), and serving as a review editor for Frontiers in Physics.

🏆 CONTRIBUTIONS AND RESEARCH FOCUS

  • Su’s research spans electrochromic materials and devices, energy storage batteries, and nanotechnology and nanophysics. He is especially noted for developing the concepts of the “nanocurvature effect” and the “non-thermal activation effect,” which have advanced the understanding of material behavior at the nanoscale. His work in the preparation and optimization of electrochromic thin films has been crucial in improving their performance, particularly in applications like smart windows and energy-efficient devices. His innovations have helped push the boundaries of electrochromic technology, blending both theoretical exploration and practical application.

📊 IMPACT AND INFLUENCE

  • Su’s contributions have had a lasting impact on the scientific community, as evidenced by his extensive publication record of 93 papers in prestigious SCI and Scopus-indexed journals. His work has been cited 2,174 times in the SCI database, underscoring his influence on peers in the fields of material science, energy storage, and nanotechnology. Furthermore, his involvement in one industry project reflects the practical relevance of his research, bridging the gap between academia and real-world applications.

🏅ACADEMIC CITES

  • Su’s impressive h-index of 27 highlights the significance of his contributions to the academic world. His work is widely recognized, particularly for his theoretical advancements and innovative approach to nanotechnology and energy-efficient devices. He continues to contribute to the scientific community as a member of the Chinese Society for Imaging Science and Technology, the Chinese Physical Society, and the expert committee of the China Optoelectronics Industry Platform and Optoelectronic Materials and Devices Network.

🚀LEGACY AND FUTURE CONTRIBUTIONS

  • Jiangbin Su’s work has laid the groundwork for future research in the fields of nanophysics, energy storage, and smart material devices. His research not only enhances current technological capabilities but also paves the way for future advancements in electrochromic technology and sustainable energy solutions. Su’s commitment to innovation and research excellence ensures that his legacy will continue to shape these fields for years to come.

📄Publications

  • Actively Tunable and Switchable Terahertz Metamaterials with Multi-Band Perfect Absorption and Polarization Conversion
    Authors: Ying Zhu, Zhiyu Huang, Jiangbin Su, Bin Tang
    Journal: Physical Chemistry Chemical Physics (2024)
  • Recent Review on Self-Supported One-Dimensional Core/Shell Nanostructures Based on WO3 for Enhanced Electrochromism
    Authors: Jiangbin Su, Longlong Chen, Chunyan Xu, Yu Liu, Long Shen, Zuming He
    Journal: Journal of Materials Chemistry A (2024)
  • Switchable Asymmetric Transmission with Broadband Polarization Conversion in Vanadium Dioxide-Assisted Terahertz Metamaterials
    Authors: Zhichao Liu, Tianle Zhou, Gui Jin, Jiangbin Su, Bin Tang
    Journal: Physical Chemistry Chemical Physics (2024)
  •  Oxygen-Content-Regulated Nanocrystalline InON Thin Films with Ultrafast Electrochromic Response and Excellent Stability
    Authors: Xiangming Zeng, Jiangbin Su, Chunyan Xu, Jiahao Chen, Xuemei Ji, Zuming He
    Journal: ACS Sustainable Chemistry & Engineering (2024-10-14)
  •  Electrochromic Properties of InON Thin Films Prepared by DC Magnetron Sputtering
    Authors: Jiahao Chen, Xuemei Ji, Jiangbin Su, Zuming He, Bin Tang
    Journal: Applied Physics A (2024-03)
  • Optimization of Optical Modulation in Amorphous WO3 Thin Films
    Authors: Jiangbin Su, Xiumei Zhu, Longlong Chen, Yu Liu, Hao Qi, Zuming He, Bin Tang
    Journal: Electronic Materials Letters (2024-03)