Prof. Hui Li | Food Allergy | Research Excellence Award
Professor | Beijing Center for Disease Prevention and Control | China
Prof. Hui Li is a distinguished expert in Environmental Soil Chemistry, currently serving as a Professor with a primary focus on research and an integral role as Associate Director of the Center for PFAS Research and Director of the Center Analytical Chemistry Laboratory. Prof. Hui Li’s professional experience includes establishing a nationally and internationally recognized environmental soil chemistry program. Prof. Hui Li’s research interests center on the analysis, sorption, transformation, bioavailability, and plant uptake of per- and polyfluoroalkyl substances (PFAS), pharmaceuticals, personal care products, and organic contaminants in the environment. Prof. Hui Li has demonstrated exceptional research skills by securing approximately $15 million in research grants as both a Principal Investigator and Co-PI from major federal agencies, highlighting strong grant-writing and research leadership capabilities. Prof. Hui Li has published over 180 peer-reviewed articles and has been recognized with significant awards and honors, including the Environmental Quality Research Award from the American Society of Agronomy (2023) and election as a Fellow of both the American Society of Agronomy (2021) and the Soil Science Society of America (2018). Furthermore, Prof. Hui Li received the Jackson Soil Chemistry and Mineralogy Award (2017). In conclusion, Prof. Hui Li is a highly influential figure in environmental science, dedicated to addressing critical issues related to contaminant fate and transport, and recognized for sustained scholarly contribution and leadership.
Featured Publications:
Sorption and desorption of pesticides by clay minerals and humic acid-clay complexes (2003). Cited by 276.
Relation of organic contaminant equilibrium sorption and kinetic uptake in plants (2005). Cited by 208.
Journal of hazardous materials (2012). Cited by 357.
Degradation of organic dyes via bismuth silver oxide initiated direct oxidation coupled with sodium bismuthate based visible light photocatalysis (2012). Cited by 196.
Insight into the distribution of pharmaceuticals in soil-water-plant systems (2019). Cited by 221.
Pharmaceutical and personal care products: from wastewater treatment into agro-food systems (2019). Cited by 215.
Uptake and accumulation of per-and polyfluoroalkyl substances in plants (2020). Cited by 202.