Issue 15, 2021

Plasmon-assisted click chemistry at low temperature: an inverse temperature effect on the reaction rate

Abstract

Plasmon assistance promotes a range of chemical transformations by decreasing their activation energies. In a common case, thermal and plasmon assistance work synergistically: higher temperature results in higher plasmon-enhanced catalysis efficiency. Herein, we report an unexpected tenfold increase in the reaction efficiency of surface plasmon-assisted Huisgen dipolar azide–alkyne cycloaddition (AAC) when the reaction mixture is cooled from room temperature to −35 °C. We attribute the observed increase in the reaction efficiency to complete plasmon-induced annihilation of the reaction barrier, prolongation of plasmon lifetime, and decreased relaxation of plasmon-excited-states under cooling. Furthermore, control quenching experiments supported by theoretical calculations indicate that plasmon-mediated substrate excitation to an electronic triplet state may play the key role in plasmon-assisted chemical transformation. Last but not least, we demonstrated the possible applicability of plasmon assistance to biological systems by AAC coupling of biotin to gold nanoparticles performed at −35 °C.

Graphical abstract: Plasmon-assisted click chemistry at low temperature: an inverse temperature effect on the reaction rate

Supplementary files

Article information

Article type
Edge Article
Submitted
26 Oct 2020
Accepted
05 Mar 2021
First published
15 Mar 2021
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2021,12, 5591-5598

Plasmon-assisted click chemistry at low temperature: an inverse temperature effect on the reaction rate

O. Guselnikova, J. Váňa, L. T. Phuong, I. Panov, L. Rulíšek, A. Trelin, P. Postnikov, V. Švorčík, E. Andris and O. Lyutakov, Chem. Sci., 2021, 12, 5591 DOI: 10.1039/D0SC05898J

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