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Loading Dependent Electrical Properties of Hybrid Perovskite Composite Media

Published online by Cambridge University Press:  05 June 2017

John P. Murphy*
Affiliation:
Montana Tech Nanotechology Laboratory, 1300 W. Park Street, Butte, MT 59701, U.S.A. Materials Science PhD Program, Montana State University System, U.S.A.
Jessica M. Andriolo
Affiliation:
Montana Tech Nanotechology Laboratory, 1300 W. Park Street, Butte, MT 59701, U.S.A. Individual Interdisiplinary PhD Program, 32 Campus Drive, University of Montana, Missoula 59812, MT, U.S.A.
Nathan J. Sutton
Affiliation:
Montana Tech Nanotechology Laboratory, 1300 W. Park Street, Butte, MT 59701, U.S.A. Mechanical Engineering Department, Montana Tech, 1300 W. Park Street, Butte, MT 59701, U.S.A.
Gary Wyss
Affiliation:
Center for Advanced Mineral and Metallurgical Processing, Montana Tech, Butte, MT 59701, U.S.A.
Jack L. Skinner
Affiliation:
Montana Tech Nanotechology Laboratory, 1300 W. Park Street, Butte, MT 59701, U.S.A. Materials Science PhD Program, Montana State University System, U.S.A. Mechanical Engineering Department, Montana Tech, 1300 W. Park Street, Butte, MT 59701, U.S.A.
*
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Abstract

Hybrid organic-inorganic perovskites (HOIPs) have been previously compounded with hydrophobic polymers in order to improve the resilience of HOIPs in humid environments. In this study HOIP particles were synthesized and dispersed into a polymer solution. The weight loading of the HOIP phase in the composite was increased until an abrupt change in the electrical conduction was observed indicating a percolation threshold was approached. Additionally, the CH3NH3PbI3/ polystyrene composite media was characterized to assess morphology and the effect it has on the observed electrical properties.

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Articles
Copyright
Copyright © Materials Research Society 2017 

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References

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