Daniel Vinton scite author profile

Daniel Vinton

3Publications

6Citation Statements Received

33Citation Statements Given

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Clemson University

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A Cesium Rare‐Earth Silicate Cs₃RESi₆O₁₅ (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

et al. 2018

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The structure of Cs RESi O , where RE=Dy-Lu, Y, In, is unusual in that it contains octahedrally coordinated rare-earth ions; their relative orientation dictates the structure, as they rotate about the c-axis supported by the cyclic Si O framework. The repeat unit of the rotation is eight units generating a very long (ca. 57 Å) unit cell axis. This unusual repeat unit is created by the structural flexibility of the hexasilicate ring, which is in turn affected by the size of the rare earth ion as well as the size of alkali ion residing within the silicate layers. Previous work showed for the smaller Sc ion, the rotation of the octahedra is not sufficient to achieve closure at an integral repeat unit and an incommensurate structure results. The products are prepared as large, high quality single crystals using a high-temperature (650 °C) hydrothermal method with CsOH and F mineralizers. The presence of fluoride is essential to the formation of the product.

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Hydrothermal single crystal growth and structural investigation of the stuffed tridymite family as NLO materials

Terry

Vinton

McMillen

et al. 2022

Journal of Alloys and Compounds

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A Cesium Rare‐Earth Silicate Cs₃RESi₆O₁₅ (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

et al. 2018

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Daniel Vinton

A Cesium Rare‐Earth Silicate Cs₃RESi₆O₁₅ (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

Hydrothermal single crystal growth and structural investigation of the stuffed tridymite family as NLO materials

A Cesium Rare‐Earth Silicate Cs₃RESi₆O₁₅ (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

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Daniel Vinton

A Cesium Rare‐Earth Silicate Cs3RESi6O15 (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

Hydrothermal single crystal growth and structural investigation of the stuffed tridymite family as NLO materials

A Cesium Rare‐Earth Silicate Cs3RESi6O15 (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

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A Cesium Rare‐Earth Silicate Cs₃RESi₆O₁₅ (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis

A Cesium Rare‐Earth Silicate Cs₃RESi₆O₁₅ (RE=Dy–Lu, Y, In): The Parent of an Unusual Structural Class Featuring a Remarkable 57 Å Unit Cell Axis