Litcius/Paper detail

ε-Polylysine-mediated assembly regulating the band gap of natural polyphenols for boosted photodynamic antimicrobial effect

Ximei Han, Qian Wang, Jiaqi Mi, Jie Zhang, Jianxing Feng, Ting Du, Linpin Luo, Chaoqun Zhang, Jianlong Wang, Wentao Zhang

2025Chemical Engineering Journal20 citationsDOIOpen Access PDF

Abstract

The photodynamic antibacterial activity of natural polyphenols as green photosensitizers possesses potential in food contamination control, but it is still limited by poor light harvesting activity and insufficient ROS generation. Herein, quercetin , a naturally occurring flavonoid, was integrated with cationic ε-Polylysine ( ε-PL) to synthesize Que/ε-PL nanoparticles (NPs) with enhanced photodynamic antimicrobial activity. According to the band gap calculation, the addition of ε-PL significantly reduced the band gap energy, thereby promoting light harvesting and ROS generation. By integrating boosted light-driven ROS generation, positive electrical properties and ε-PL intrinsic antimicrobial activity, Que/ε-PL NPs exhibited remarkable antimicrobial activity. Also, Que/ε-PL NPs possessed antioxidant activity. Subsequently, Que/ε-PL NPs were incorporated into agar (AG) matrix to form the composite packaging films for prolonging the storage period of cherries and maintaining the quality of goods. The study creates an innovative approach to improve the photodynamic antibacterial activity of natural polyphenols through the natural inter-molecular assembly, ensuring the safety of agricultural products practically.

Topics & Concepts

AntimicrobialPhotodynamic therapyPolyphenolPolylysineChemistryNanotechnologyPharmacologyMedicineBiochemistryMaterials scienceAntioxidantOrganic chemistryNanoplatforms for cancer theranosticsPolydiacetylene-based materials and applicationsAntimicrobial agents and applications