Fabrication of All-Inorganic Nanocrystal Solids through Matrix Encapsulation of Nanocrystal Arrays

Dan Roth; Erich Kinder; Pavel Moroz; Geoffrey Diederich; Alexa Johnson; Maria Kirsanova; Alexander Nemchinov; Timothy O'Connor; Mikhail Zamkov

Fabrication of All-Inorganic Nanocrystal Solids through Matrix Encapsulation of Nanocrystal Arrays

ORAL

Abstract

A general strategy for low-temperature processing of colloidal nanocrystals into all-inorganic films is reported. The present methodology goes beyond the traditional ligand-interlinking scheme and relies on encapsulation of morphologically-defined nanocrystal arrays into a matrix of a wide-band gap semiconductor, which preserves optoelectronic properties of individual nanoparticles while rendering the nanocrystal film photoconductive. Fabricated solids exhibit excellent thermal stability, which is attributed to the heteroepitaxial structure of nanocrystal-matrix interfaces, and show compelling light-harvesting performance in prototype solar cells.

^*We would like to acknowledge the OBOR ``Materials Networks'' program, BGSU, the NSF and N.R. Neal.

Oct. 15, 2011, 8:30 AM – Oct. 15, 2011, 8:45 AM

Authors

Dan Roth
- Department of Physics, BGSU
Erich Kinder
- Department of Physics, BGSU
Pavel Moroz
- The Center for Photochemical Sciences and Department of Physics, BGSU
Geoffrey Diederich
- Department of Physics, BGSU
Alexa Johnson
- The Center for Photochemical Sciences and Department of Physics, BGSU
Maria Kirsanova
- The Center for Photochemical Sciences and Department of Physics, BGSU
Alexander Nemchinov
- The Center for Photochemical Sciences and Department of Physics, BGSU
Timothy O'Connor
- Department of Physics, BGSU
Mikhail Zamkov
- The Center for Photochemical Sciences and Department of Physics, BGSU