Solar Cells: Ordered Single‐Crystalline Anatase TiO 2  Nanorod Clusters Planted on Graphene for Fast Charge Transfer in Photoelectrochemical Solar Cells (Small 28/2017) | Zendy

Wang Yang | Zendy; Liu Xueqin | Zendy; Li Zhen | Zendy; Cao Ya | Zendy; Li Yinchang | Zendy; Liu Xupo | Zendy; Jia Songru | Zendy; Zhao Yanli | Zendy

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Solar Cells: Ordered Single‐Crystalline Anatase TiO 2 Nanorod Clusters Planted on Graphene for Fast Charge Transfer in Photoelectrochemical Solar Cells (Small 28/2017)

Author(s) -

Wang Yang,

Liu Xueqin,

Li Zhen,

Cao Ya,

Li Yinchang,

Liu Xupo,

Jia Songru,

Zhao Yanli

Publication year - 2017

Publication title -

small

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.785

H-Index - 236

eISSN - 1613-6829

pISSN - 1613-6810

DOI - 10.1002/smll.201770155

Subject(s) - anatase , nanorod , materials science , graphene , nanotechnology , photovoltaic system , nanoparticle , optoelectronics , charge (physics) , electrode , charge carrier , photoelectrochemical cell , hybrid solar cell , energy conversion efficiency , photocatalysis , polymer solar cell , chemistry , biochemistry , electrolyte , ecology , biology , physics , quantum mechanics , catalysis

Achieving efficient charge transport is a great challenge in nanostructured electrode‐based photoelectrochemical cells. In article number 1700793 , Zhen Li, Yanli Zhao, and co‐workers, aligned single‐crystalline anatase TiO 2 nanorod clustergraphene architectures (rGO/ATRCs) are developed. The utilization of rGO/ATRCs in photoelectrochemical solar cells shows a 22% increase in photovoltaic efficiency over conventional nanoparticle–graphene hybrids, presenting a promising potential application in the photoelectrochemical energy field.

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