Litcius/Paper detail

Au-Au/IrO<sub>2</sub>@Cu(PABA) Reactor with Tandem Enzyme-Mimicking Catalytic Activity for Organic Dye Degradation and Antibacterial Application

Yingying Zhong, Tiantian Wang, Zhiting Lao, Minglei Lu, Shan Liang, Xiping Cui, Qinglan Li, Suqing Zhao

2021ACS Applied Materials & Interfaces44 citationsDOI

Abstract

Herein, a Au-Au/IrO2 nanocomposite with tandem enzyme-mimicking activity was innovatively synthesized, which can show outstanding glucose oxidase (GOx)-like activity and peroxidase-like activity simultaneously under neutral conditions. Moreover, a Au-Au/IrO2@Cu(PABA) reactor was prepared via encapsulation of the Au-Au/IrO2 nanocomposite in a Cu(PABA) metal organic framework. The reactor not only exhibits excellent organic solvent stability, acid resistance, and reusability but also displays better cascade reaction catalytic efficiency (kcat/Km = 148.86 min–1 mM–1) than the natural free enzyme system (GOx/HRP) (kcat/Km = 98.20 min–1 mM–1) and Au-Au/IrO2 nanocomposite (kcat/Km = 135.24 min–1 mM–1). In addition, it is found that the reactor can catalyze glucose or dissolved oxygen to produce active oxygen species (ROS) including HO, 1O2, and O2–· through its enzyme-mimicking activity. Finally, the novel reactor was successfully used in organic dye degradation and antibacterial application. The results show that it can effectively degrade methyl orange, methylene blue, and rhodamine B, which all can reach a degradation rate of nearly 100% after interacting with Au-Au/IrO2@Cu (PABA) for 3.5 h. Furthermore, the reactor also exhibits excellent antibacterial activity, so as to achieve a complete bactericidal effect to Staphylococcus aureus and Escherichia coli at a concentration of 12.5 μg mL–1.

Topics & Concepts

Enzyme kineticsCatalysisNuclear chemistryAntibacterial activityGlucose oxidaseMaterials scienceMethylene blueNanocompositeRhodamine BCascade reactionMethyl orangeChemistryPhotocatalysisOrganic chemistryActive siteBiosensorNanotechnologyBacteriaBiologyGeneticsAdvanced Nanomaterials in CatalysisGraphene and Nanomaterials ApplicationsElectrochemical sensors and biosensors