Yichuan He scite author profile

Crystallographic facets in a crystal carry interior properties and proffer rich functionalities in a wide range of application areas. However, rational prediction, on-demand customization, and accurate synthesis of facets and facet junctions of a crystal are enormously desirable but still challenging. Herein, a framework of machine learning (ML)-aided crystal facet design with ionic liquid controllable synthesis is developed and then demonstrated with the star-material anatase TiO 2. Aided by employing ML to acquire surface energies from facet junction datasource, the relationships between surface energy and growth conditions based on the Langmuir adsorption isotherm are unveiled, enabling to develop controllable facet synthetic strategies. These strategies are successfully verified after applied for synthesizing TiO 2 crystals with custom crystal facets and facet junctions under tuning ionic liquid [bmim][BF 4 ] experimental conditions. Therefore, this innovative framework integrates data-intensive rational design and experimental controllable synthesis to develop and customize crystallographic facets and facet junctions. This proves the feasibility of an intelligent chemistry future to accelerate the discovery of facet-governed functional material candidates.

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Emerging surface strategies for porous materials-based phase change composites

et al. 2022

Matter

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Visualized-experimental investigation on the energy storage performance of PCM infiltrated in the metal foam with varying pore densities

et al. 2021

Energy

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Reliable predictions of bubble departure frequency in subcooled flow boiling: A machine learning-based approach

Hu²,

Li³

et al. 2022

International Journal of Heat and Mass Transfer

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Yichuan He

Bearing Fault Automatic Classification Based on Deep Learning

Machine Learning‐Aided Crystal Facet Rational Design with Ionic Liquid Controllable Synthesis

Emerging surface strategies for porous materials-based phase change composites

Visualized-experimental investigation on the energy storage performance of PCM infiltrated in the metal foam with varying pore densities

Reliable predictions of bubble departure frequency in subcooled flow boiling: A machine learning-based approach

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