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Hot-Electron-Activated Peroxidase-Mimicking Activity of Ultrathin Pd Nanozymes

Yonghua Tang, Xueqing Xiong, Chengjie Xu, Deshuai Yu, Yanyan Huang, Changxu Lin, Xiangyang Liu, Youhui Lin

2020Nanoscale Research Letters25 citationsDOIOpen Access PDF

Abstract

Abstract Light-activated nanozymes can provide a wealth of new opportunities for the chemical industry and biotechnology. However, present remote-controlled catalytic systems are still far from satisfactory. Herein, we present an interesting example of applying ultrathin Pd nanosheets (Pd NSs) as a light-controllable peroxidase mimic. Since most of Pd atoms are exposed on their surface, Pd NSs with a thickness of 1.1 nm possess high peroxidase-like activity. More importantly, under light excitation, such intrinsic activity can be further activated by a nearly 2.4- to 3.2-fold. Such a phenomenon can be ascribed to the unique optical property of ultrathin Pd NSs, which can efficiently capture photons to generate hot electrons via surface plasmon resonance effect and thus promote the in situ decomposition of H 2 O 2 into reactive oxygen species radicals (O*). This enhanced catalysis can also be used for real-time and highly sensitive colorimetric detection of H2O2. We expect our work can provide valuable insights into the rational design of artificial nanozymes with controllable and efficient activity in biomedical diagnostics, drug delivery, and environmental chemistry.

Topics & Concepts

NanochemistryCatalysisNanotechnologySurface plasmon resonancePeroxidaseChemiluminescenceMaterials scienceRadicalPlasmonRational designDecompositionCombinatorial chemistryChemistryPhotochemistryNanoparticleOptoelectronicsOrganic chemistryEnzymeAdvanced Nanomaterials in CatalysisNanocluster Synthesis and ApplicationsAdvanced biosensing and bioanalysis techniques
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