Marie Claverie scite author profile

This contribution gives a comprehensive review about the progress in preparation methods, properties and applications of the different synthetic talc types: i) crystalline nanotalc synthesized by hydrothermal treatment; ii) amorphous and/or short-range order nanotalc obtained by precipitation, and iii) organic-inorganic hybrid talc-like structures obtained through a sol-gel process or a chemical grafting. Several advantages of nanotalc such as high chemical purity, high surface area, tunable submicronic size, high thermal stability, and hydrophilic character (leading to be the first fluid mineral) are emphasized. Synthetic nanotalc applications are also considered including its use as nanofiller in composite materials, as absorbers of organic compounds, as anticorrosion coatings and as agents for cosmetic applications. Regarding their high industrial application potential, intensive research has been carried out to better understand their behavior and develop processes to produce them. To facilitate further research and development, scientific and technical challenges are discussed in this Review article.

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Fast‐Geomimicking using Chemistry in Supercritical Water

Dumas

Claverie

Slostowski

et al. 2016

Angew Chem Int Ed

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Herein we introduce a powerful and fast method to produce nanominerals using a bottom up approach. The supercritical hydrothermal flow synthesis is exploited to produce model nanominerals by mimicking natural environments at high temperatures under pressure. This innovative concept is demonstrated with the talc synthesis; this represents a major technical breakthrough since it allows decreasing the mineral-synthesis time from tens of hours to tens of seconds. Through this example, we show these nanominerals exhibit new crystal-chemistry signals and new properties. This approach provides a means to reproduce the early stages of formation of minerals in different natural environments from sedimentary environments (low temperature and pressure) to hydrothermal/metamorphic environments (high temperature and high pressure).

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Structural and chemical changes in kaolinite caused by flash calcination: Formation of spherical particles

Claverie

Martin

Tardy³

et al. 2015

Applied Clay Science

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Fast‐Geomimicking using Chemistry in Supercritical Water

et al. 2016

View full text Add to dashboard Cite

Herein we introduce a powerful and fast method to produce nanominerals using a bottom up approach. The supercritical hydrothermal flow synthesis is exploited to produce model nanominerals by mimicking natural environments at high temperatures under pressure. This innovative concept is demonstrated with the talc synthesis; this represents a major technical breakthrough since it allows decreasing the mineral‐synthesis time from tens of hours to tens of seconds. Through this example, we show these nanominerals exhibit new crystal‐chemistry signals and new properties. This approach provides a means to reproduce the early stages of formation of minerals in different natural environments from sedimentary environments (low temperature and pressure) to hydrothermal/metamorphic environments (high temperature and high pressure).

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Marie Claverie

Synthetic Talc and Talc‐Like Structures: Preparation, Features and Applications

Fast‐Geomimicking using Chemistry in Supercritical Water

Structural and chemical changes in kaolinite caused by flash calcination: Formation of spherical particles

Fast‐Geomimicking using Chemistry in Supercritical Water

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