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The Story of Semiconductors$
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John W. Orton

Print publication date: 2008

Print ISBN-13: 9780199559107

Published to Oxford Scholarship Online: January 2010

DOI: 10.1093/acprof:oso/9780199559107.001.0001

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Polycrystalline and amorphous semiconductors

Polycrystalline and amorphous semiconductors

Chapter:
(p.447) Chapter 10 Polycrystalline and amorphous semiconductors
Source:
The Story of Semiconductors
Author(s):

John Orton

Publisher:
Oxford University Press
DOI:10.1093/acprof:oso/9780199559107.003.0010

This chapter discusses two important applications of non-single crystal semiconductors: photovoltaic solar cells and large screen liquid crystal display. The electrical and optical properties of polycrystalline and amorphous semiconductors are described. Grain boundaries play a major role in determining the behaviour of polycrystalline materials, acting as energy barriers to current flow and as trapping centres for minority carriers. Grain size and doping levels work together with barrier heights to control material properties. Amorphous materials are characterised by lack of order, but can function as semiconductors with low carrier mobilities. Amorphous silicon, containing hydrogen (aSi:H) is used to make thin film transistors, acting as switches at each pixel point in a LCTV display, thus facilitating matrix addressing. It is also used to make cheap solar cells. Crystalline silicon dominates the commercial field of PV solar cells, but is under challenge from a number of polycrystalline materials, such as CdS:CuInSe.

Keywords:   amorphous semiconductor, polycrystalline semiconductor, grain boundaries, thin film transistor, matrix addressing, solar cell

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