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Title: Materials Data on Tb2Ti3Si4 by Materials Project

Abstract

Tb2Ti3Si4 crystallizes in the tetragonal P4_12_12 space group. The structure is three-dimensional. Tb3+ is bonded to seven Si4- atoms to form distorted TbSi7 pentagonal bipyramids that share corners with four equivalent TiSi6 octahedra, corners with six equivalent TbSi7 pentagonal bipyramids, corners with five equivalent TiSi6 pentagonal pyramids, edges with three equivalent TbSi7 pentagonal bipyramids, edges with two equivalent TiSi6 pentagonal pyramids, faces with two equivalent TiSi6 octahedra, faces with two equivalent TbSi7 pentagonal bipyramids, and faces with four equivalent TiSi6 pentagonal pyramids. The corner-sharing octahedra tilt angles range from 45–53°. There are a spread of Tb–Si bond distances ranging from 2.84–3.14 Å. There are two inequivalent Ti+3.33+ sites. In the first Ti+3.33+ site, Ti+3.33+ is bonded to six Si4- atoms to form TiSi6 octahedra that share corners with four equivalent TiSi6 octahedra, corners with eight equivalent TbSi7 pentagonal bipyramids, corners with six equivalent TiSi6 pentagonal pyramids, faces with four equivalent TbSi7 pentagonal bipyramids, and faces with four equivalent TiSi6 pentagonal pyramids. The corner-sharing octahedral tilt angles are 52°. There are two shorter (2.70 Å) and four longer (2.79 Å) Ti–Si bond lengths. In the second Ti+3.33+ site, Ti+3.33+ is bonded to six Si4- atoms to form distorted TiSi6 pentagonal pyramidsmore » that share corners with three equivalent TiSi6 octahedra, corners with five equivalent TbSi7 pentagonal bipyramids, corners with four equivalent TiSi6 pentagonal pyramids, edges with two equivalent TbSi7 pentagonal bipyramids, edges with four equivalent TiSi6 pentagonal pyramids, faces with two equivalent TiSi6 octahedra, and faces with four equivalent TbSi7 pentagonal bipyramids. The corner-sharing octahedra tilt angles range from 38–41°. There are a spread of Ti–Si bond distances ranging from 2.56–2.76 Å. There are two inequivalent Si4- sites. In the first Si4- site, Si4- is bonded in a 9-coordinate geometry to four equivalent Tb3+, four Ti+3.33+, and one Si4- atom. The Si–Si bond length is 2.52 Å. In the second Si4- site, Si4- is bonded in a 9-coordinate geometry to three equivalent Tb3+, five Ti+3.33+, and one Si4- atom.« less

Publication Date:
Other Number(s):
mp-510083
DOE Contract Number:  
AC02-05CH11231; EDCBEE
Product Type:
Dataset
Research Org.:
Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States). LBNL Materials Project
Sponsoring Org.:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Subject:
36 MATERIALS SCIENCE
Keywords:
crystal structure; Tb2Ti3Si4; Si-Tb-Ti
OSTI Identifier:
1262829
DOI:
https://doi.org/10.17188/1262829

Citation Formats

The Materials Project. Materials Data on Tb2Ti3Si4 by Materials Project. United States: N. p., 2020. Web. doi:10.17188/1262829.
The Materials Project. Materials Data on Tb2Ti3Si4 by Materials Project. United States. doi:https://doi.org/10.17188/1262829
The Materials Project. 2020. "Materials Data on Tb2Ti3Si4 by Materials Project". United States. doi:https://doi.org/10.17188/1262829. https://www.osti.gov/servlets/purl/1262829. Pub date:Wed Jul 22 00:00:00 EDT 2020
@article{osti_1262829,
title = {Materials Data on Tb2Ti3Si4 by Materials Project},
author = {The Materials Project},
abstractNote = {Tb2Ti3Si4 crystallizes in the tetragonal P4_12_12 space group. The structure is three-dimensional. Tb3+ is bonded to seven Si4- atoms to form distorted TbSi7 pentagonal bipyramids that share corners with four equivalent TiSi6 octahedra, corners with six equivalent TbSi7 pentagonal bipyramids, corners with five equivalent TiSi6 pentagonal pyramids, edges with three equivalent TbSi7 pentagonal bipyramids, edges with two equivalent TiSi6 pentagonal pyramids, faces with two equivalent TiSi6 octahedra, faces with two equivalent TbSi7 pentagonal bipyramids, and faces with four equivalent TiSi6 pentagonal pyramids. The corner-sharing octahedra tilt angles range from 45–53°. There are a spread of Tb–Si bond distances ranging from 2.84–3.14 Å. There are two inequivalent Ti+3.33+ sites. In the first Ti+3.33+ site, Ti+3.33+ is bonded to six Si4- atoms to form TiSi6 octahedra that share corners with four equivalent TiSi6 octahedra, corners with eight equivalent TbSi7 pentagonal bipyramids, corners with six equivalent TiSi6 pentagonal pyramids, faces with four equivalent TbSi7 pentagonal bipyramids, and faces with four equivalent TiSi6 pentagonal pyramids. The corner-sharing octahedral tilt angles are 52°. There are two shorter (2.70 Å) and four longer (2.79 Å) Ti–Si bond lengths. In the second Ti+3.33+ site, Ti+3.33+ is bonded to six Si4- atoms to form distorted TiSi6 pentagonal pyramids that share corners with three equivalent TiSi6 octahedra, corners with five equivalent TbSi7 pentagonal bipyramids, corners with four equivalent TiSi6 pentagonal pyramids, edges with two equivalent TbSi7 pentagonal bipyramids, edges with four equivalent TiSi6 pentagonal pyramids, faces with two equivalent TiSi6 octahedra, and faces with four equivalent TbSi7 pentagonal bipyramids. The corner-sharing octahedra tilt angles range from 38–41°. There are a spread of Ti–Si bond distances ranging from 2.56–2.76 Å. There are two inequivalent Si4- sites. In the first Si4- site, Si4- is bonded in a 9-coordinate geometry to four equivalent Tb3+, four Ti+3.33+, and one Si4- atom. The Si–Si bond length is 2.52 Å. In the second Si4- site, Si4- is bonded in a 9-coordinate geometry to three equivalent Tb3+, five Ti+3.33+, and one Si4- atom.},
doi = {10.17188/1262829},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2020},
month = {7}
}