Issue 17, 2007
From the journal:

Journal of Materials Chemistry

New classes of Si-based photonic materials and device architectures via designer molecular routes

John Kouvetakis*a  and  Andrew V. G. Chizmeshyaa  

* Corresponding authors

a Chemistry and Biochemistry Deaprtment, Arizona State University, Mail Code 1604, Tempe, AZ, USA
E-mail: JKouvetakis@asu.edu

Abstract

Ge/Sn-based group IV semiconductors with tunable band gaps across the wide IR range were synthesized using designer hydrides with tailored Si, Ge and Sn stoichiometries and structures. GeSn, SiGeSn, SiSn and SiGeSn/Ge heterostructures undergo indirect to direct band gap transitions via strain engineering and alloy composition tuning, providing the basis for integration of microelectronics with optical components into a single chip. SiGeSn systems also enable buffer layer technologies with unprecedented lattice and thermal matching capabilities for applications in monolithic integration of III–V semiconductors with Si electronics.

Graphical abstract: New classes of Si-based photonic materials and device architectures via designer molecular routes

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Article information

DOI
https://doi.org/10.1039/B618416B
Article type
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Submitted
18 Dec 2006
Accepted
22 Feb 2007
First published
09 Mar 2007

J. Mater. Chem., 2007,17, 1649-1655

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New classes of Si-based photonic materials and device architectures via designer molecular routes

J. Kouvetakis and A. V. G. Chizmeshya, J. Mater. Chem., 2007, 17, 1649 DOI: 10.1039/B618416B

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