Assoc. Prof. Dr. Yang Xiaoyong | Chemical Engineering | Best Researcher Award
Associate Professor | East China University of Science and Technology | China
Assoc. Prof. Dr. Yang Xiaoyong is a dedicated academic and researcher at the East China University of Science and Technology, School of Mechanical and Power Engineering. His expertise lies in the advancement of mass transfer intensification and separation technologies, with a strong focus on their application in energy systems and chemical processes. As a lecturer and active member of the research community, he has made notable contributions through funded projects, publications, and editorial responsibilities. He currently serves as a Youth Editorial Board Member for the Clean Energy Science and Technology Journal, reflecting his recognition as an emerging thought leader in the field. His work emphasizes innovative approaches to separation technologies, process intensification and sustainable energy systems, bridging fundamental science with industrial applications. With experience in both national and collaborative projects, his career integrates research, teaching, and knowledge dissemination. Through his scientific endeavors, he continues to push forward solutions that address global energy challenges, promote efficiency in chemical processes, and contribute to a sustainable energy future.
Publication Profile
Scopus
Education
Assoc. Prof. Dr. Yang Xiaoyong received a comprehensive academic formation across some of China’s most prominent engineering and science institutions. He began with a solid grounding in mechanical and electronic engineering, where he developed core technical competencies and a foundation in problem-solving. His master’s studies in energy and power engineering provided him with specialized knowledge in thermodynamics, fluid mechanics, and energy system optimization, which became the basis for his growing research interest in separation technologies. Building on this expertise, he pursued doctoral research at the School of Mechanical and Power Engineering at the East China University of Science and Technology. His doctoral training equipped him with advanced experimental and theoretical tools for studying mass transfer processes and designing novel separation systems. Following this, he deepened his academic and research outlook through postdoctoral training, both at his home institution and at the Smart Energy Innovation College at Shanghai Jiao Tong University. This period expanded his research vision toward applied innovations in clean energy and industrial separation processes. His academic journey highlights a progressive deepening of expertise, culminating in a strong interdisciplinary skill set that integrates mechanical engineering, power systems, and chemical process engineering.
Professional Experience
Assoc. Prof. Dr. Yang Xiaoyong has cultivated a diverse professional trajectory across teaching, research, and collaborative projects. At East China University of Science and Technology, he has contributed as a postdoctoral fellow and now as a lecturer in the School of Mechanical and Power Engineering. His role combines advanced research with teaching responsibilities, training the next generation of engineers and researchers in energy and process engineering. His professional experience also includes a research fellowship at Shanghai Jiao Tong University, where he was part of the Smart Energy Innovation College, engaging in cross-disciplinary projects and expanding his understanding of cutting-edge energy solutions. He has led and participated in multiple national-level projects, including those supported by the National Natural Science Foundation of China, the National Key Research and Development (R&D) Program, and the Shanghai Science and Technology Commission. His work has also extended into practical technological development, including patents and horizontal industry collaborations, particularly in areas such as acid-hydrocarbon separation and supercritical solvent deasphalting. In addition to his academic roles, his involvement on editorial boards reflects his commitment to advancing scholarly communication and ensuring the dissemination of innovative knowledge in clean energy and chemical engineering.
Research Interest
Assoc. Prof. Dr. Yang Xiaoyong’s primary research interests center on the field of mass transfer intensification and advanced separation technologies, with applications in chemical processes, clean energy systems, and industrial sustainability. His work is focused on improving the efficiency, selectivity, and cost-effectiveness of separation processes, which play a critical role in petrochemical refining, clean fuel production, and carbon reduction strategies. He has explored advanced methods such as supercritical fluid technology, solvent deasphalting, and novel apparatus design for acid-hydrocarbon separation, targeting challenges associated with conventional processing methods. Beyond industrial separation, his research is motivated by global imperatives for cleaner energy systems, aiming to minimize waste, reduce environmental impact, and optimize resource utilization. He is particularly interested in translating fundamental research into practical engineering applications, bridging the gap between theory and industry. His research direction reflects a strong interdisciplinary approach, integrating mechanical and power engineering principles with chemical engineering innovation. Through this work, he contributes to both academic advancement and practical technological development, positioning his research within the broader vision of sustainable energy transformation and next-generation process engineering solutions.
Research Skills
Assoc. Prof. Dr. Yang Xiaoyong possesses a comprehensive set of research skills that span theoretical modeling, experimental design, and applied process innovation. His expertise includes the design and optimization of mass transfer equipment, the application of advanced separation techniques, and the integration of novel solvents in industrial processing. He has strong skills in experimental system development, enabling the validation of separation technologies under realistic operating conditions. His work also demonstrates proficiency in process simulation, data analysis, and system integration, ensuring that his research outputs are both scientifically rigorous and practically viable. Through his leadership in funded projects, he has acquired significant skills in project management, collaboration, and cross-disciplinary communication, effectively coordinating research teams and aligning academic research with industrial needs. His experience in patent development highlights his ability to convert laboratory research into intellectual property and technology transfer. As a member of an editorial board, he has also developed skills in scientific review, critical evaluation, and academic publishing, contributing to the quality and impact of scholarly communication in clean energy and technology. Collectively, these skills underline his capacity to innovate, solve complex engineering problems, and contribute to sustainable industrial practices.
Awards and Honors
Throughout his academic career, Assoc. Prof. Dr. Yang Xiaoyong has been recognized for his research excellence, innovation, and leadership potential. His receipt of the National Natural Science Foundation of China Youth Fund Project stands as a testament to his recognition as a promising young researcher capable of advancing frontier technologies in chemical engineering and energy systems. Additionally, his success in securing projects within the National Key R&D Program and the Shanghai Science and Technology Commission’s Young Talent Sailing Program illustrates his acknowledged ability to contribute meaningfully to national scientific and technological priorities. Beyond funding recognition, his inclusion as a Youth Editorial Board Member of the Clean Energy Science and Technology Journal reflects his reputation among peers and his growing influence in shaping academic discourse in his field. His patents and applied research outputs further mark him as a researcher whose work has practical industrial impact. These honors collectively highlight a career defined not only by academic achievement but also by contributions that support both the advancement of science and the development of innovative technologies for real-world applications.
Author Metrics
Publications Top Notes
1. Ultra-high efficient pH induced selective removal of cationic and anionic dyes from complex coexisted solution by novel amphoteric biocomposite microspheres
Citations: 73 | Year: 2019
2. Efficient recovery of phenol from coal tar processing wastewater with tributylphosphane/diethyl carbonate/cyclohexane: Extraction cycle and mechanism study
Citations: 33 | Year: 2020
3. High-efficient synergistic extraction of Co(II) and Mn(II) from wastewater via novel microemulsion and annular centrifugal extractor
Citations: 27 | Year: 2019
4. Interfacial Behavior and Internal Microflow of an Oil Droplet during the Process of the Oil Droplet Covering a Gas Bubble: Without and with NaCl
Citations: 24 | Year: 2021
5. Synergistic DFT-guided design and microfluidic synthesis of high-performance ion-imprinted biosorbents for selective heavy metal removal
Citations: 23 | Year: 2021
Conclusion
Assoc. Prof. Dr. Yang Xiaoyong represents a new generation of engineering scholars who combine rigorous academic research with an orientation toward industrial application and societal impact. His career illustrates a consistent focus on advancing the science and technology of separation processes, with the broader goal of improving efficiency and sustainability in energy and chemical industries. He has successfully bridged the academic, industrial, and editorial spheres, contributing to both fundamental knowledge and practical technological development. His roles as researcher, educator, and editorial board member underscore his commitment to advancing scientific understanding while mentoring young engineers and supporting academic publishing. His achievements in research projects, patents, and funded programs demonstrate both creativity and applied problem-solving ability. Looking forward, his career trajectory positions him to continue contributing significantly to the fields of mass transfer, process intensification and sustainable energy engineering. His work not only addresses pressing industrial and environmental challenges but also supports the global transition toward cleaner and more efficient energy solutions, marking him as a scholar of impact and influence in the years to come.