TiO2-coated carbon nanotube-silicon solar cells with efficiency of 15%

Enzheng Shi; Luhui Zhang; Zhen Li; Peixu Li; Yuanyuan Shang; Yi Jia; Jinquan Wei; Kunlin Wang; Hongwei Zhu; Dehai Wu; Sen Zhang; Anyuan Cao

doi:10.1038/srep00884

TiO₂-coated carbon nanotube-silicon solar cells with efficiency of 15%

Enzheng Shi, Luhui Zhang, Zhen Li, Peixu Li, Yuanyuan Shang, Yi Jia, Jinquan Wei, Kunlin Wang, Hongwei Zhu, Dehai Wu, Sen Zhang, Anyuan Cao

Research output: Contribution to journal › Article › peer-review

170 Scopus citations

Abstract

Combining carbon nanotubes (CNTs), graphene or conducting polymers with conventional silicon wafers leads to promising solar cell architectures with rapidly improved power conversion efficiency until recently. Here, we report CNT-Si junction solar cells with efficiencies reaching 15% by coating a TiO ₂ antireflection layer and doping CNTs with oxidative chemicals, under air mass (AM 1.5) illumination at a calibrated intensity of 100 mW/cm ² and an active device area of 15 mm² The TiO₂ layer significantly inhibits light reflectance from the Si surface, resulting in much enhanced short-circuit current (by 30%) and external quantum efficiency. Our method is simple, well-controlled, and very effective in boosting the performance of CNT-Si solar cells.

Original language	English
Article number	884
Journal	Scientific Reports
Volume	2
DOIs	https://doi.org/10.1038/srep00884
State	Published - 2012
Externally published	Yes

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10.1038/srep00884

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title = "TiO2-coated carbon nanotube-silicon solar cells with efficiency of 15%",

abstract = "Combining carbon nanotubes (CNTs), graphene or conducting polymers with conventional silicon wafers leads to promising solar cell architectures with rapidly improved power conversion efficiency until recently. Here, we report CNT-Si junction solar cells with efficiencies reaching 15% by coating a TiO 2 antireflection layer and doping CNTs with oxidative chemicals, under air mass (AM 1.5) illumination at a calibrated intensity of 100 mW/cm 2 and an active device area of 15 mm2 The TiO2 layer significantly inhibits light reflectance from the Si surface, resulting in much enhanced short-circuit current (by 30%) and external quantum efficiency. Our method is simple, well-controlled, and very effective in boosting the performance of CNT-Si solar cells.",

author = "Enzheng Shi and Luhui Zhang and Zhen Li and Peixu Li and Yuanyuan Shang and Yi Jia and Jinquan Wei and Kunlin Wang and Hongwei Zhu and Dehai Wu and Sen Zhang and Anyuan Cao",

year = "2012",

doi = "10.1038/srep00884",

language = "英语",

volume = "2",

journal = "Scientific Reports",

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T1 - TiO2-coated carbon nanotube-silicon solar cells with efficiency of 15%

AU - Shi, Enzheng

AU - Zhang, Luhui

AU - Li, Zhen

AU - Li, Peixu

AU - Shang, Yuanyuan

AU - Jia, Yi

AU - Wei, Jinquan

AU - Wang, Kunlin

AU - Zhu, Hongwei

AU - Wu, Dehai

AU - Zhang, Sen

AU - Cao, Anyuan

PY - 2012

Y1 - 2012

N2 - Combining carbon nanotubes (CNTs), graphene or conducting polymers with conventional silicon wafers leads to promising solar cell architectures with rapidly improved power conversion efficiency until recently. Here, we report CNT-Si junction solar cells with efficiencies reaching 15% by coating a TiO 2 antireflection layer and doping CNTs with oxidative chemicals, under air mass (AM 1.5) illumination at a calibrated intensity of 100 mW/cm 2 and an active device area of 15 mm2 The TiO2 layer significantly inhibits light reflectance from the Si surface, resulting in much enhanced short-circuit current (by 30%) and external quantum efficiency. Our method is simple, well-controlled, and very effective in boosting the performance of CNT-Si solar cells.

AB - Combining carbon nanotubes (CNTs), graphene or conducting polymers with conventional silicon wafers leads to promising solar cell architectures with rapidly improved power conversion efficiency until recently. Here, we report CNT-Si junction solar cells with efficiencies reaching 15% by coating a TiO 2 antireflection layer and doping CNTs with oxidative chemicals, under air mass (AM 1.5) illumination at a calibrated intensity of 100 mW/cm 2 and an active device area of 15 mm2 The TiO2 layer significantly inhibits light reflectance from the Si surface, resulting in much enhanced short-circuit current (by 30%) and external quantum efficiency. Our method is simple, well-controlled, and very effective in boosting the performance of CNT-Si solar cells.

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U2 - 10.1038/srep00884

DO - 10.1038/srep00884

M3 - 文章

AN - SCOPUS:84870823148

SN - 2045-2322

VL - 2

JO - Scientific Reports

JF - Scientific Reports

M1 - 884

ER -

TiO₂-coated carbon nanotube-silicon solar cells with efficiency of 15%

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