Affiliation:
1. a National Demonstration Center for Experimental Water Environment Education, Beijing University of Civil Engineering and Architecture, Beijing 100044, China
2. b Beijing Waterworks Group Co., Ltd., Beijing 100031, China
3. c Research Institute for Environmental Innovation (Tianjin Binhai), Tianjin 300457, China
Abstract
Abstract
Adopting the yield of the epicatechin gallate (EGCG)–Cu complex as an indicator, the impact of four conditions, such as pH, reaction time, temperature and reactant ratio, on the synthesis of the target complex was analyzed to identify the optimal conditions on synthesizing the compound. The reactant ratio between EGCG and Cu2+ was explored, and the characteristic peaks and functional groups of the EGCG–Cu complex were scrutinized by UV–Visible and Fourier-Transform Infrared spectrophotometers. Finally, the efficacy difference of bactericidal properties against Escherichia coli suspensions between EGCG and its complex was evaluated as the criteria. Furthermore, comparative studies were performed to gauge the antimicrobial activity of EGCG and its complex at equivalent concentrations. The results demonstrated that the optimal experimental conditions for the complex reaction were a pH of 7, at 40 °C, in a reaction time of 60 min and a reactant ratio of 1:2. By the molar ratio method, the reactant ratio was determined as n(EGCG):n(Cu2+) = 1:2, and the complex reaction was at the phenolic hydroxyl group on the benzene ring of EGCG. Compared to EGCG, the complex demonstrated significant enhancement in bactericidal properties against E. coli and has lower chromaticity.
Funder
Hebei Construction Science and Technology Research Project Guiding Plan Project
National Natural Science Foundation of China
Open Research Fund Program of Key Laboratory of Urban Stormwater System and Water Environment (Beijing University of Civil Engineering and Architecture),Ministry of Education
Beijing University of Civil Engineering and Architecture Postgraduate Innovation Project
Subject
Water Science and Technology
Reference28 articles.
1. Prooxidant property of green tea polyphenols epicatechin and epigallocatechin-3-gallate: implications for anticancer properties
2. Versatile polyphenolic platforms in regulating cell biology
3. Ferric Ions as a Catalytic Mediator in Metal‐EGCG Network for Bactericidal Effect and Pathogenic Biofilm Eradication at Physiological pH
4. Research progress of antibacterial mechanism of tea polyphenols in drinking water disinfection;Cuimin;Environmental Engineering,2016
5. Mechanism of oxidative damage in Escherichia coli caused by epigallocatechin gallate (EGCG) in the presence of calcium ions;Feng;AQUA – Water Infrastructure, Ecosystems and Society,2023