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Oriented Assembled TiO<sub>2</sub> Hierarchical Nanowire Arrays with Fast Electron Transport Properties
Abstract
Developing high surface area nanostructured electrodes with rapid charge transport is essential for artificial photosynthesis, solar cells, photocatalysis, and energy storage devices. Substantial research efforts have been recently focused on building one-dimensional (1D) nanoblocks with fast charge transport into three-dimensional (3D) hierarchical architectures. However, except for the enlargement in surface area, there is little experimental evidence of fast electron transport in these 3D nanostructure-based solar cells. In this communication, we report single-crystal-like 3D TiO<sub>2</sub> branched nanowire arrays consisting of 1D branch epitaxially grown from the primary trunk. These 3D branched nanoarrays not only demonstrate 71% enlargement in large surface area (compared with 1D nanowire arrays) but also exhibit fast charge transport property (comparable to that in 1D single crystal nanoarrays), leading to 52% improvement in solar conversion efficiency. The orientated 3D assembly strategy reported here can be extended to assemble other metal oxides with one or multiple components and thus represents a critical avenue toward high-performance optoelectronics- Text
- Journal contribution
- Biophysics
- Biotechnology
- Cancer
- Space Science
- Environmental Sciences not elsewhere classified
- Chemical Sciences not elsewhere classified
- surface area
- nanoarray
- Oriented Assembled TiO 2 Hierarchical Nanowire Arrays
- 1 D nanowire arrays
- Fast Electron Transport PropertiesDeveloping
- 1 D branch epitaxially
- charge transport property
- orientated 3 D assembly strategy
- charge transport
- Substantial research efforts
- enlargement
- surface area nanostructured electrodes
- energy storage devices