Interface-Dependent Selectivity in Plasmon-Driven Chemical Reactions

STEFANCU, ANDREI; GARGIULO, JULIAN; LAUFERSKY, GEOFFRY; AUGUIÉ, BAPTISTE; CHI?, VASILE; LE RU, ERIC C.; LIU, MIN; LEOPOLD, NICOLAE; CORTÉS, EMILIANO

ACS NANO

AMER CHEMICAL SOC

Año: 2023 vol. 17 p. 3119 - 3127

1936-0851

Plasmonic nanoparticles can drive chemical reactions powered by sunlight. These processes involve the excitation of surface plasmon resonances (SPR) and the subsequent charge transfer to adsorbed molecular orbitals. Nonetheless, controlling the flow of energy and charge from SPR to adsorbed molecules is still difficult to predict or tune. Here, we show the crucial role of halide ions in modifying the energy landscape of a plasmon-driven chemical reaction by carefully engineering the nanoparticle-molecule interface. By doing so, the selectivity of plasmon-driven chemical reactions can be controlled, either enhancing or inhibiting the metal-molecule charge and energy transfer or by regulating the vibrational pumping rate. These results provide an elegant method for controlling the energy flow from plasmonic nanoparticles to adsorbed molecules, in situ, and selectively targeting chemical bonds by changing the chemical nature of the metal-molecule interface.