Authors: Jayadevan, K.P.; Tseng, T.Y.

Source: Journal of Nanoscience and Nanotechnology, Volume 5, Number 11, November 2005 , pp. 1768-1784(17)

Publisher: American Scientific Publishers

Abstract:

The one-dimensional (1-D) nanostructures of cadmium chalcogenides (II-VI: CdSe, CdTe), InP and GaAs (III-V), and the ternarychalcopyrites CuInS₂, CuInSe₂, and CuInTe₂ (I-III-VI₂) are the candidate semiconductors of interest as absorber layers in solar cells. In the confinement regime (1–10 nm) of these 1-D nanostructures, the electronic energylevels are quantized so that the oscillator strength and the resultant absorption of solar energyare enhanced. Moreover, the discrete energylevels effectivelyseparate the electrons and holes at the two electrodes or at the interfaces with a polymer in a hybrid structure, so that an oriented and 1-D nanostructured absorber layer is expected to improve the conversion efficiencyof solar cells. The intrinsic anisotropyof II-VI and I-III-VI₂ crystal lattices and the progress in various growth processes are assessed to derive suitable morphological features of these 1-D semiconductor nanostructures. The present status of research in nanorod-based solar cells is reviewed and possible routes are identified to improve the performance of nanorod-based solar cells. Finally, the characteristics of nanorod-based solar cells are compared with the dye-sensitized and organic solar cells.

Keywords: SOLAR CELL; SEMICONDUCTOR; ABSORBER LAYER; ANISOTROPIC LATTICE; VAPOR PHASE GROWTH; TEMPLATE-ASSISTED SYNTHESIS; SOLUTION GROWTH; EXCITONS; HYBRID POLYMER/NANOSTRUCTURE; CHARGE TRANSFER; POWER CONVERSION EFFICIENCY; DYE-SENSITIZED STRUCTURE; ORGANIC PHOTOVOLTAICS

Document Type: Review article

DOI: http://dx.doi.org/10.1166/jnn.2005.445

Publication date: 2005-11-01

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