Mg doped CuCrO2 as efficient hole transport layers for organic and perovskite solar cells

Boya Zhang; Sampreetha Thampy; Wiley A. Dunlap-Shohl; Weijie Xu; Yangzi Zheng; Fong Yi Cao; Yen Ju Cheng; Anton V. Malko; David B. Mitzi; Julia W.P. Hsu

doi:10.3390/nano9091311

Mg doped CuCrO₂ as efficient hole transport layers for organic and perovskite solar cells

Boya Zhang, Sampreetha Thampy, Wiley A. Dunlap-Shohl, Weijie Xu, Yangzi Zheng, Fong Yi Cao, Yen Ju Cheng, Anton V. Malko, David B. Mitzi, Julia W.P. Hsu^*

^*此作品的通信作者

研究成果: Article › 同行評審

21 引文斯高帕斯（Scopus）

摘要

The electrical and optical properties of the hole transport layer (HTL) are critical for organic and halide perovskite solar cell (OSC and PSC, respectively) performance. In this work, we studied the effect of Mg doping on CuCrO₂ (CCO) nanoparticles and their performance as HTLs in OSCs and PSCs. CCO and Mg doped CCO (Mg:CCO) nanoparticles were hydrothermally synthesized. The nanoparticles were characterized by various experimental techniques to study the effect of Mg doping on structural, chemical, morphological, optical, and electronic properties of CCO. We found that Mg doping increases work function and decreases particle size. We demonstrate CCO and Mg:CCO as efficient HTLs in a variety of OSCs, including the first demonstration of a non-fullerene acceptor bulk heterojunction, and CH₃ NH₃ PbI₃ PSCs. A small improvement of average short-circuit current density with Mg doping was found in all systems.

原文	English
文章編號	1311
期刊	Nanomaterials
卷	9
發行號	9
DOIs	https://doi.org/10.3390/nano9091311
出版狀態	Published - 9月 2019

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10.3390/nano9091311

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@article{b6ad19e75b104277adc0bf9f6c666555,

title = "Mg doped CuCrO2 as efficient hole transport layers for organic and perovskite solar cells",

abstract = "The electrical and optical properties of the hole transport layer (HTL) are critical for organic and halide perovskite solar cell (OSC and PSC, respectively) performance. In this work, we studied the effect of Mg doping on CuCrO2 (CCO) nanoparticles and their performance as HTLs in OSCs and PSCs. CCO and Mg doped CCO (Mg:CCO) nanoparticles were hydrothermally synthesized. The nanoparticles were characterized by various experimental techniques to study the effect of Mg doping on structural, chemical, morphological, optical, and electronic properties of CCO. We found that Mg doping increases work function and decreases particle size. We demonstrate CCO and Mg:CCO as efficient HTLs in a variety of OSCs, including the first demonstration of a non-fullerene acceptor bulk heterojunction, and CH3 NH3 PbI3 PSCs. A small improvement of average short-circuit current density with Mg doping was found in all systems.",

keywords = "Hole transport layer, Mg doped CuCrO, Organic solar cells, Perovskite solar cells",

author = "Boya Zhang and Sampreetha Thampy and Dunlap-Shohl, {Wiley A.} and Weijie Xu and Yangzi Zheng and Cao, {Fong Yi} and Cheng, {Yen Ju} and Malko, {Anton V.} and Mitzi, {David B.} and Hsu, {Julia W.P.}",

year = "2019",

month = sep,

doi = "10.3390/nano9091311",

language = "English",

volume = "9",

journal = "Nanomaterials",

issn = "2079-4991",

publisher = "Multidisciplinary Digital Publishing Institute",

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T1 - Mg doped CuCrO2 as efficient hole transport layers for organic and perovskite solar cells

AU - Zhang, Boya

AU - Thampy, Sampreetha

AU - Dunlap-Shohl, Wiley A.

AU - Xu, Weijie

AU - Zheng, Yangzi

AU - Cao, Fong Yi

AU - Cheng, Yen Ju

AU - Malko, Anton V.

AU - Mitzi, David B.

AU - Hsu, Julia W.P.

PY - 2019/9

Y1 - 2019/9

N2 - The electrical and optical properties of the hole transport layer (HTL) are critical for organic and halide perovskite solar cell (OSC and PSC, respectively) performance. In this work, we studied the effect of Mg doping on CuCrO2 (CCO) nanoparticles and their performance as HTLs in OSCs and PSCs. CCO and Mg doped CCO (Mg:CCO) nanoparticles were hydrothermally synthesized. The nanoparticles were characterized by various experimental techniques to study the effect of Mg doping on structural, chemical, morphological, optical, and electronic properties of CCO. We found that Mg doping increases work function and decreases particle size. We demonstrate CCO and Mg:CCO as efficient HTLs in a variety of OSCs, including the first demonstration of a non-fullerene acceptor bulk heterojunction, and CH3 NH3 PbI3 PSCs. A small improvement of average short-circuit current density with Mg doping was found in all systems.

AB - The electrical and optical properties of the hole transport layer (HTL) are critical for organic and halide perovskite solar cell (OSC and PSC, respectively) performance. In this work, we studied the effect of Mg doping on CuCrO2 (CCO) nanoparticles and their performance as HTLs in OSCs and PSCs. CCO and Mg doped CCO (Mg:CCO) nanoparticles were hydrothermally synthesized. The nanoparticles were characterized by various experimental techniques to study the effect of Mg doping on structural, chemical, morphological, optical, and electronic properties of CCO. We found that Mg doping increases work function and decreases particle size. We demonstrate CCO and Mg:CCO as efficient HTLs in a variety of OSCs, including the first demonstration of a non-fullerene acceptor bulk heterojunction, and CH3 NH3 PbI3 PSCs. A small improvement of average short-circuit current density with Mg doping was found in all systems.

KW - Hole transport layer

KW - Mg doped CuCrO

KW - Organic solar cells

KW - Perovskite solar cells

UR - http://www.scopus.com/inward/record.url?scp=85073279478&partnerID=8YFLogxK

U2 - 10.3390/nano9091311

DO - 10.3390/nano9091311

M3 - Article

AN - SCOPUS:85073279478

SN - 2079-4991

VL - 9

JO - Nanomaterials

JF - Nanomaterials

IS - 9

M1 - 1311

ER -

Mg doped CuCrO2 as efficient hole transport layers for organic and perovskite solar cells

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Mg doped CuCrO₂ as efficient hole transport layers for organic and perovskite solar cells