Synthesis of inorganic structural isomers by diffusion-constrained self-assembly of designed precursors: a novel type of isomerism

Marco Esters; Matti B Alemayehu; Zachary Jones; N T Nguyen; Michael D Anderson; Corinna Grosse; Saskia F Fischer; David C Johnson

doi:10.1002/anie.201409714

Synthesis of inorganic structural isomers by diffusion-constrained self-assembly of designed precursors: a novel type of isomerism

Angew Chem Int Ed Engl. 2015 Jan 19;54(4):1130-4. doi: 10.1002/anie.201409714. Epub 2014 Dec 17.

Authors

Marco Esters¹, Matti B Alemayehu, Zachary Jones, N T Nguyen, Michael D Anderson, Corinna Grosse, Saskia F Fischer, David C Johnson

Affiliation

¹ Department of Chemistry, University of Oregon, Eugene, OR 97403 (USA) http://pages.uoregon.edu/grnchem/davejohnson.html; Materials Science Institute, University of Oregon, Eugene, OR 97403-1253 (USA).

PMID: 25522188
DOI: 10.1002/anie.201409714

Abstract

The structure of precursors is used to control the formation of six possible structural isomers that contain four structural units of PbSe and four structural units of NbSe2: [(PbSe)1.14]4[NbSe2]4, [(PbSe)1.14]3[NbSe2]3[(PbSe)1.14]1[NbSe2]1, [(PbSe)1.14]3[NbSe2]2[(PbSe)1.14]1[NbSe2]2, [(PbSe)1.14]2[NbSe2]3[(PbSe)1.14]2[NbSe2]1, [(PbSe)1.14]2[NbSe2]2[(PbSe)1.14]1[NbSe2]1[(PbSe)1.14]1[NbSe2]1, [(PbSe)1.14]2[NbSe2]1[(PbSe)1.14]1[NbSe2]2[(PbSe)1.14]1[NbSe2]1. The electrical properties of these compounds vary with the nanoarchitecture. For each pair of constituents, over 20,000 new compounds, each with a specific nanoarchitecture, are possible with the number of structural units equal to 10 or less. This provides opportunities to systematically correlate structure with properties and hence optimize performance.

Keywords: isomers; layered compounds; metastable compounds; nanostructures; solid-state reactions.