Impacts of Metal Tips and Dopants on the Electronic Transport in 1-Dimensional CdS Nanorods
POSTER
Abstract
We synthesize 1-dimensional CdS nanorods (NRs) with and without Pt nanoparticle tips, and with and without Mn2+ dopants in the CdS host lattice [1]. A contactless, non-destructive imaging technique, dielectric force microscopy (DFM), is used to probe the electronic transport properties in as-synthesized CdS-based NRs. DFM experiments reveal low conductivity in undoped and untipped CdS NRs. The impacts of Pt tips and Mn2+ dopants on the electronic transport in CdS NRs, which are under investigation, will be reported.
References:
[1] W. MacSwain, H. Lin, Z. -J. Li, S. Li, C. Chu, L. Dube, O. Chen, G. Leem, and W. Zheng, J. Mater. Chem. A 11, 7066-7076 (2023).
References:
[1] W. MacSwain, H. Lin, Z. -J. Li, S. Li, C. Chu, L. Dube, O. Chen, G. Leem, and W. Zheng, J. Mater. Chem. A 11, 7066-7076 (2023).
* This work is supported by National Science Foundation (NSF) Grant Numbers DMR 1904042 and CHE-1944978.
Presenters
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Christopher Wisehart
California State University, Bakersfield
Authors
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Christopher Wisehart
California State University, Bakersfield
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Walker MacSwain
Syracuse University
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Weiwei Zheng
Syracuse University
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Yize Stephanie Li
California State University, Bakersfield