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Device Performance of the Mott Insulator LaVO3 as a Photovoltaic Material

Searching for solar-absorbing materials containing earth-abundant elements with chemical stability is of critical importance for advancing photovoltaic technologies. Mott insulators have been theoretically proposed as potential photovoltaic materials. In this paper, we evaluate their performance in...

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Published in:	Physical review applied 2015-06, Vol.3 (6)
Main Authors:	Wang, Lingfei, Li, Yongfeng, Bera, Ashok, Ma, Chun, Jin, Feng, Yuan, Kaidi, Yin, Wanjian, David, Adrian, Chen, Wei, Wu, Wenbin, Prellier, Wilfrid, Wei, Suhuai, Wu, Tom
Format:	Article
Language:	English
Subjects:	device performance MATERIALS SCIENCE Mott Insulator LaVO3 photovoltaic material SOLAR ENERGY
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creator	Wang, Lingfei Li, Yongfeng Bera, Ashok Ma, Chun Jin, Feng Yuan, Kaidi Yin, Wanjian David, Adrian Chen, Wei Wu, Wenbin Prellier, Wilfrid Wei, Suhuai Wu, Tom
description	Searching for solar-absorbing materials containing earth-abundant elements with chemical stability is of critical importance for advancing photovoltaic technologies. Mott insulators have been theoretically proposed as potential photovoltaic materials. In this paper, we evaluate their performance in solar cells by exploring the photovoltaic properties of Mott insulator LaVO3 (LVO). LVO films show an indirect band gap of 1.08 eV as well as strong light absorption over a wide wavelength range in the solar spectrum. First-principles calculations on the band structure of LVO further reveal that the d-d transitions within the upper and lower Mott-Hubbard bands and p-d transitions between the O 2p and V 3d band contribute to the absorption in visible and ultraviolet ranges, respectively. Transport measurements indicate strong carrier trapping and the formation of polarons in LVO. To utilize the strong light absorption of LVO and to overcome its poor carrier transport, we incorporate it as a light absorber in solar cells in conjunction with carrier transporters and evaluate its device performance. Our complementary experimental and theoretical results on such prototypical solar cells made of Mott-Hubbard transition-metal oxides pave the road for developing light-absorbing materials and photovoltaic devices based on strongly correlated electrons.
doi_str_mv	10.1103/PhysRevApplied.3.064015
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subjects	device performance MATERIALS SCIENCE Mott Insulator LaVO3 photovoltaic material SOLAR ENERGY
title	Device Performance of the Mott Insulator LaVO3 as a Photovoltaic Material
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