Computational investigation of charge transfer from hydroxymethyl radicals to metal surfaces suspended in water

Basil Raju Karimadom; Dan Meyerstein; Amir Mizrahi; Haya Kornweitz

doi:10.1039/d5cp01927c

Computational investigation of charge transfer from hydroxymethyl radicals to metal surfaces suspended in water

Basil Raju Karimadom
, Dan Meyerstein
, Amir Mizrahi
, Haya Kornweitz

Department of Chemical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Radicals are highly reactive species that undergo fast reactions on metal surfaces, exhibiting charge transfer to/from the surface upon adsorption. Organic acids, including weak ones, are reported to undergo deprotonation on metal surfaces. Computational studies are used to study the surface reactions of hydroxy methyl radicals, which have a high aqueous pK _a (10.7) on the (111) surface of Ag, Au, and Pt. The study shows that the hydroxymethyl radical undergoes faster deprotonation on the metal surfaces than in the homogeneous media. Deprotonation on Ag and Au surfaces leads to the formation of charged NPs along with the formation of formaldehyde in accordance with the mechanism proposed by Henglein. However, on Pt(111), only partial charge transfer from the radical to the surface is observed. These results are in accordance with reported experimental results.

Original language	English
Pages (from-to)	20468-20473
Number of pages	6
Journal	Physical Chemistry Chemical Physics
Volume	27
Issue number	38
DOIs	https://doi.org/10.1039/d5cp01927c
State	Published - 2 Oct 2025

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title = "Computational investigation of charge transfer from hydroxymethyl radicals to metal surfaces suspended in water",

abstract = "Radicals are highly reactive species that undergo fast reactions on metal surfaces, exhibiting charge transfer to/from the surface upon adsorption. Organic acids, including weak ones, are reported to undergo deprotonation on metal surfaces. Computational studies are used to study the surface reactions of hydroxy methyl radicals, which have a high aqueous pK a (10.7) on the (111) surface of Ag, Au, and Pt. The study shows that the hydroxymethyl radical undergoes faster deprotonation on the metal surfaces than in the homogeneous media. Deprotonation on Ag and Au surfaces leads to the formation of charged NPs along with the formation of formaldehyde in accordance with the mechanism proposed by Henglein. However, on Pt(111), only partial charge transfer from the radical to the surface is observed. These results are in accordance with reported experimental results.",

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doi = "10.1039/d5cp01927c",

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AU - Karimadom, Basil Raju

AU - Meyerstein, Dan

AU - Mizrahi, Amir

AU - Kornweitz, Haya

PY - 2025/10/2

Y1 - 2025/10/2

N2 - Radicals are highly reactive species that undergo fast reactions on metal surfaces, exhibiting charge transfer to/from the surface upon adsorption. Organic acids, including weak ones, are reported to undergo deprotonation on metal surfaces. Computational studies are used to study the surface reactions of hydroxy methyl radicals, which have a high aqueous pK a (10.7) on the (111) surface of Ag, Au, and Pt. The study shows that the hydroxymethyl radical undergoes faster deprotonation on the metal surfaces than in the homogeneous media. Deprotonation on Ag and Au surfaces leads to the formation of charged NPs along with the formation of formaldehyde in accordance with the mechanism proposed by Henglein. However, on Pt(111), only partial charge transfer from the radical to the surface is observed. These results are in accordance with reported experimental results.

AB - Radicals are highly reactive species that undergo fast reactions on metal surfaces, exhibiting charge transfer to/from the surface upon adsorption. Organic acids, including weak ones, are reported to undergo deprotonation on metal surfaces. Computational studies are used to study the surface reactions of hydroxy methyl radicals, which have a high aqueous pK a (10.7) on the (111) surface of Ag, Au, and Pt. The study shows that the hydroxymethyl radical undergoes faster deprotonation on the metal surfaces than in the homogeneous media. Deprotonation on Ag and Au surfaces leads to the formation of charged NPs along with the formation of formaldehyde in accordance with the mechanism proposed by Henglein. However, on Pt(111), only partial charge transfer from the radical to the surface is observed. These results are in accordance with reported experimental results.

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Computational investigation of charge transfer from hydroxymethyl radicals to metal surfaces suspended in water

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