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Cited 18 time in webofscience Cited 16 time in scopus
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Air-Stable CuInSe2 Nanocrystal Transistors and Circuits via Post-Deposition Cation Exchange

Authors
Wang, HanButler, Derrick J.Straus, Daniel B.Oh, NuriWu, FengkaiGuo, JiacenXue, KunLee, Jennifer D.Murray, Christopher B.Kagan, Cherie R.
Issue Date
Feb-2019
Publisher
AMER CHEMICAL SOC
Keywords
nanocrystals; doping; solution process; copper indium diselenide; stoichiometry; field effect transistors; integrated circuits
Citation
ACS NANO, v.13, no.2, pp.2324 - 2333
Indexed
SCIE
SCOPUS
Journal Title
ACS NANO
Volume
13
Number
2
Start Page
2324
End Page
2333
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/15069
DOI
10.1021/acsnano.8b09055
ISSN
1936-0851
Abstract
Colloidal semiconductor nanocrystals (NCs) are a promising materials class for solution-processable, next-generation electronic devices. However, most high-performance devices and circuits have been achieved using NCs containing toxic elements, which may limit their further device development. We fabricate high mobility CuInSe2 NC field-effect transistors (FETs) using a solution-based, post-deposition, sequential cation exchange process that starts with electronically coupled, thiocyanate (SCN)-capped CdSe NC thin films. First Cu+ is substituted for Cd2+ transforming CdSe NCs to Cu-rich Cu2Se NC films. Next, Cu2Se NC films are dipped into a Na2Se solution to Se-enrich the NCs, thus compensating the Cu-rich surface, promoting fusion of the Cu2Se NCs, and providing sites for subsequent In-dopants. The liquid-coordination-complex trioctylphosphine indium chloride (TOP InCl3) is used as a source of In3+ to partially exchange and n-dope CuInSe2 NC films. We demonstrate Al2O3-encapsulated, air-stable CuInSe2 NC FETs with linear (saturation) electron mobilities of 8.2 +/- 1.8 cm(2)/(V s) (10.5 +/- 2.4 cm(2)/(V s)) and with current modulation of 10(5), comparable to that for high-performance Cd-, Pb-, and As-based NC FETs. The CuInSe2 NC FETs are used as building blocks of integrated inverters to demonstrate their promise for low-cost, low-toxicity NC circuits.
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