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An experimentally validated end-to-end framework for operando modeling of intrinsically complex metallosilicates

cond-mat.mtrl-sci · 2025-12-02 · conditional · novelty 6.0

An end-to-end framework combining domain separation, lightweight ML potentials, and de novo in silico synthesis enables quantitative atomistic modeling of mesoporous metallosilicates that matches experimental densities, pair distribution functions, IR spectra, and hydroxyl densities.

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An experimentally validated end-to-end framework for operando modeling of intrinsically complex metallosilicates cond-mat.mtrl-sci · 2025-12-02 · conditional · none · ref 45
An end-to-end framework combining domain separation, lightweight ML potentials, and de novo in silico synthesis enables quantitative atomistic modeling of mesoporous metallosilicates that matches experimental densities, pair distribution functions, IR spectra, and hydroxyl densities.

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