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Literature DB >> 21452837

Achieving high efficiency silicon-carbon nanotube heterojunction solar cells by acid doping.

Yi Jia¹, Anyuan Cao, Xi Bai, Zhen Li, Luhui Zhang, Ning Guo, Jinquan Wei, Kunlin Wang, Hongwei Zhu, Dehai Wu, P M Ajayan.

Abstract

Various approaches to improve the efficiency of solar cells have followed the integration of nanomaterials into Si-based photovoltaic devices. Here, we achieve 13.8% efficiency solar cells by combining carbon nanotubes and Si and doping with dilute HNO(3). Acid infiltration of nanotube networks significantly boost the cell efficiency by reducing the internal resistance that improves fill factor and by forming photoelectrochemical units that enhance charge separation and transport. Compared to conventional Si cells, the fabrication process is greatly simplified, simply involving the transfer of a porous semiconductor-rich nanotube film onto an n-type crystalline Si wafer followed by acid infiltration.

Entities: Chemical

Year: 2011 PMID： 21452837 DOI： 10.1021/nl2002632

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

13 in total

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4. The effect of dry shear aligning of nanotube thin films on the photovoltaic performance of carbon nanotube-silicon solar cells.

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5. A cross-functional nanostructured platform based on carbon nanotube-Si hybrid junctions: where photon harvesting meets gas sensing.

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6. Low-temperature synthesis of multilayer graphene/amorphous carbon hybrid films and their potential application in solar cells.

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10. Carbon Nanotube-Silicon Nanowire Heterojunction Solar Cells with Gas-Dependent Photovoltaic Performances and Their Application in Self-Powered NO2 Detecting.

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