A Complex Molecular Symmetry Analysis of Silsesquioxane Catalysts for Inorganic Students

Teaching symmetry point groups to introductory inorganic chemistry students is often complicated by the difficulties students face with mental manipulation of complex molecules. Additionally, most textbooks provide practice in the form of random two-dimensional molecules or figures of little signifi...

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Veröffentlicht in:	Journal of chemical education 2022-05, Vol.99 (5), p.2204-2207
1. Verfasser:	Starr, Hannah E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Apexes Boron Catalysts Chemistry Cubes Education & Educational Research Inorganic chemistry Molecular chemistry Students Symmetry Teaching methods Textbooks
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description	Teaching symmetry point groups to introductory inorganic chemistry students is often complicated by the difficulties students face with mental manipulation of complex molecules. Additionally, most textbooks provide practice in the form of random two-dimensional molecules or figures of little significance. As an alternative, an assignment is proposed that analyzes the symmetry of borylated cubic silsesquioxane-based catalysts, which can be modeled as simple cubes with differing vertices that depend on boron loading. This assignment challenges students to explore how adding substituents to a highly symmetric molecule affects the symmetry of the molecule and gives rise to spectroscopically equivalent positions.
doi_str_mv	10.1021/acs.jchemed.2c00172
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subjects	Apexes Boron Catalysts Chemistry Cubes Education & Educational Research Inorganic chemistry Molecular chemistry Students Symmetry Teaching methods Textbooks
title	A Complex Molecular Symmetry Analysis of Silsesquioxane Catalysts for Inorganic Students
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