Hydroxylation-driven surface reconstruction at the origin of compressive-to-tensile stress transition in MgO nanoparticles

Y Hu and V Turlo, SCRIPTA MATERIALIA, 268, 116841 (2025).

DOI: 10.1016/j.scriptamat.2025.116841

Experiments demonstrate negative (non-Laplacian) surface stresses in metal oxide nanoparticles, partly associated with humidity during fabrication and annealing. Using a neural network interatomic potential for MgO as a model oxide, we prove that water adsorption induces surface hydroxylation, shifting facets from 100 to 110 to 111 and switching the average surface stress from positive to negative. Predicted lattice strains versus nanoparticle size agree well with experiments, clarifying experimental correlations. The new framework informs broad applications in catalysis, sensors, batteries, and biomedicine.

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