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Plasmon-powered chemistry with visible-light active copper nanoparticles

Shreya Tyagi, Radha Krishna Kashyap, Ankit Dhankhar, Pramod P. Pillai

2024Chemical Science16 citationsDOIOpen Access PDF

Abstract

at 580 nm, which signifies their suitability for various light-harnessing studies. The characteristic wine-red colour and crystallography studies confirm the presence of mainly Cu(0) atoms in CuNPs, which showed excellent long-term colloidal and compositional stability under ambient conditions (at least 50 days). The as-synthesized oleylamine-capped CuNPs are ligand-exchanged with charged thiolate ligands of both polarities to form stable dispersions in water, with complete retention of their plasmonic properties and structural integrity (for ∼2 days and ∼6 h under inert and ambient conditions, respectively). Photothermal-conversion efficiency of CuNPs is estimated to be ∼80%, raising the surrounding temperature to ∼170 °C within ∼30 s of irradiation with a 1 W 532 nm diode laser, which is 'hot' enough to perform useful solar-vapor generation and high-temperature crystal-to-crystal phase transformation. Our work projects plasmonic CuNPs as an affordable and effective alternative to conventional metal NPs to harness light-matter interactions for future plasmon-powered chemistry.

Topics & Concepts

PlasmonCopperNanoparticleChemistryVisible spectrumNanotechnologyPhotochemistryOptoelectronicsMaterials scienceOrganic chemistryGold and Silver Nanoparticles Synthesis and ApplicationsNanoplatforms for cancer theranosticsPhotochromic and Fluorescence Chemistry