Assistant Director, Sichuan University, China
Dr. Bangda Wang is an accomplished Associate Professor at the College of Carbon Neutrality Future Technology, Sichuan University, China. With a strong academic foundation and extensive research experience, Dr. Wang specializes in environmental science and engineering, focusing on advanced materials for pollution control and carbon neutrality. He earned his Ph.D. from Tsinghua University and has been a visiting scholar at the University of Tokyo, Japan. Dr. Wang has published over 40 research articles in high-impact journals, contributing significantly to the fields of wastewater purification, air pollution control, and biomass-derived functional materials. His work emphasizes sustainable solutions for environmental challenges, including the removal of toxic metals, catalytic reduction of NOx, and CO2 separation. Dr. Wangβs dedication to research and education has earned him recognition in the academic community, making him a key figure in advancing green technologies for a sustainable future.
PROFESSIONAL PROFILE
Scopus
STRENGTHS FOR THE AWARD
- Extensive Academic and Research Background
- Associate Professor at Sichuan University, with prior roles as Assistant Professor and a Visiting Scholar at the University of Tokyo.
- Strong educational foundation with a Ph.D. from Tsinghua University, a leading institution in environmental research.
- High-Impact Research Contributions
- Published 41 research papers with 982 citations and an h-index of 18, demonstrating significant academic impact.
- Works published in high-ranking journals such as Separation and Purification Technology, Fuel, Chemosphere, Journal of Hazardous Materials, and Science of the Total Environment.
- Research focuses on environmental sustainability, carbon neutrality, and advanced materials, crucial fields in todayβs global challenges.
- Innovative Research in Environmental Engineering
- Contributions to radioactive wastewater purification, biomass-derived materials for pollution control, CO2 separation, and catalytic reduction of NOx pollutants.
- Notable advancements in biochar catalysts, zeolites, mesoporous silica, and mixed matrix membranes for environmental applications.
- International Research Collaborations
- Collaborated with researchers from Tsinghua University, University of Tokyo, and various international institutions.
- Co-authorship with multiple researchers highlights his ability to work on interdisciplinary projects.
- Recognition and Leadership in the Field
- Lead and corresponding author in multiple publications, indicating a leading role in research projects.
- Research aligned with carbon neutrality and pollution control, making a strong case for excellence in sustainable development.
AREAS FOR IMPROVEMENT
- Broader Industry Impact
- While his research is academically significant, further industry applications or patents could strengthen his profile.
- Collaboration with environmental agencies or industries for large-scale implementation would enhance impact.
- Research Grant and Funding Recognition
- More awarded research grants or major funding projects could elevate his standing for awards in scientific contributions.
- Expanding participation in international research consortia could further boost visibility.
- Public Engagement and Knowledge Transfer
- Increased outreach through conferences, keynote speeches, and public awareness initiatives could further establish leadership.
- Participation in global policy discussions on carbon neutrality would enhance societal impact.
EDUCATION
π Ph.D. (2015-2019) β School of Environment, Tsinghua University
π Masterβs (2011-2014) β College of Polymer Science and Engineering, Sichuan University
π Bachelorβs (2007-2011) β College of Polymer Science and Engineering, Sichuan University
WORK EXPERIENCE
ποΈ Associate Professor (2021-Present) β College of Carbon Neutrality Future Technology, Sichuan University
ποΈ Assistant Professor (2019-2021) β College of Architecture and Environment, Sichuan University
π Visiting Scholar (2017-2018) β University of Tokyo, Japan
AWARDS & HONORS
π Recognized for contributions to sustainable environmental technology
π Multiple research publications in high-impact journals
π Significant international collaborations and citations
RESEARCH FOCUS
π¬ Development of porous materials for pollutant removal
π± Sustainable and bio-based functional materials
π οΈ Advanced catalytic systems for NOx reduction
βοΈ COβ capture and separation technologies
PUBLICATION TOP NOTES
π Comparative study of silica-based porous materials in the purification of radioactive wastewater
π Biomass-derived functional materials: Preparation, functionalization, and applications in adsorption and catalytic separation
π Insights into the enhanced activity and SOβ resistance of air oxidation-treated Mn-Fe doped biochar catalyst
π Air oxidation coupling NHβ treatment of biomass-derived hierarchical porous biochar for enhanced toluene removal
π Organotemplate-free synthesis of MOR zeolite from coal fly ash
π Preparation of amidoxime-functionalized mesoporous silica nanospheres for U(VI) removal
π Novel synthesis of cyano-functionalized mesoporous silica nanospheres for toxic metal removal
CONCLUSION
Bangda Wang is a strong candidate for the Best Researcher Award due to his high-impact publications, significant citation record, international collaborations, and contributions to environmental sustainability and carbon neutrality. His work in advanced porous materials, biochar catalysis, and pollutant removal technologies demonstrates innovation and relevance to global environmental challenges. Strengthening industry collaborations, securing more research grants, and engaging in broader public discourse would further enhance his candidacy for this prestigious recognition.