Abstract As a cutting-edge multifunctional material,luminescent metal-organic frameworks(LMOFs) possess remarkable advantages in the field of pollutant sensing.This experimental design integrates LMOF-based fluorescent sensing technology into undergraduate experimental teaching.Through a practical chain of“material preparation → fluorescence analysis technology → environmental pollutant detection → on-site application”,it enables intuitive,rapid,and non-destructive imaging detection of p-nitroaniline(p-NA) as well as 2,6-dichloro-p-nitroaniline(DCN).Integrating knowledge from analytical chemistry,materials chemistry,and environmental chemistry,this design is targeted at senior undergraduate and graduate students majoring in applied chemistry,materials engineering,and environmental engineering,and is also compatible with innovative training programs.Teaching practice shows that this experiment significantly enhances students’ research literacy,instrument operation skills,and ability to solve complex problems,making it suitable for experimental teaching in colleges and universities.
LI Dan, WANG Jian, WU Peng-Yan, YUAN Xing-Cheng. Comprehensive Experimental Design for Intuitive and Rapid Detection of Pesticide Residues Based on Luminescent Metal-Organic Frameworks[J]. Chinese Journal of Chemical Education, 2026, 47(4): 69-76.
