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WAGNER, M. MEYER, B. SETVÍN, M. SCHMID, M. DIEBOLD, U.
Original Title
Direct assessment of the acidity of individual surface hydroxyls
Type
journal article in Web of Science
Language
English
Original Abstract
The state of deprotonation/protonation of surfaces has far-ranging implications in chemistry, from acid-base catalysis(1) and the electrocatalytic and photocatalytic splitting of water(2), to the behaviour of minerals(3) and biochemistry(4). An entity's acidity is described by its proton affinity and its acid dissociation constant pK(a) (the negative logarithm of the equilibrium constant of the proton transfer reaction in solution). The acidity of individual sites is difficult to assess for solids, compared with molecules. For mineral surfaces, the acidity is estimated by semi-empirical concepts, such as bond-order valence sums(5), and increasingly modelled with first-principles molecular dynamics simulations(6,7). At present, such predictions cannot be tested-experimental measures, such as the point of zero charge(8), integrate over the whole surface or, in some cases, individual crystal facets(9). Here we assess the acidity of individual hydroxyl groups on In2O3(111)-a model oxide with four different types of surface oxygen atom. We probe the strength of their hydrogen bonds with the tip of a non-contact atomic force microscope and find quantitative agreement with density functional theory calculations. By relating the results to known proton affinities of gas-phase molecules, we determine the proton affinity of the different surface sites of In2O3 with atomic precision. Measurements on hydroxylated titanium dioxide and zirconium oxide extend our method to other oxides. Non-contact atomic force microscopy measurements are used to probe the hydrogen bond strength of individual surface hydroxyl groups and determine their acidity with atomic precision.
Keywords
Proton Afinity; Non-contact AFM; In2O3; Surfaces
Authors
WAGNER, M.; MEYER, B.; SETVÍN, M.; SCHMID, M.; DIEBOLD, U.
Released
29. 4. 2021
Publisher
NATURE RESEARCH
Location
BERLIN
ISBN
0028-0836
Periodical
NATURE
Year of study
592
Number
7856
State
United Kingdom of Great Britain and Northern Ireland
Pages from
722
Pages to
725
Pages count
4
URL
https://www.nature.com/articles/s41586-021-03432-3
BibTex
@article{BUT171513, author="Margareta Ilse {Wagner} and Bernd {Meyer} and Martin {Setvín} and Michael {Schmid} and Ulrike {Diebold}", title="Direct assessment of the acidity of individual surface hydroxyls", journal="NATURE", year="2021", volume="592", number="7856", pages="722--725", doi="10.1038/s41586-021-03432-3", issn="0028-0836", url="https://www.nature.com/articles/s41586-021-03432-3" }