Solvothermal Preparation and Spectroscopic Characterization of Copper Indium Diselenide Nanorods

Abstract

Single-crystalline chalcopyrite CuInSe₂ nanorods (CuInSe₂NRs) of 50−100 nm in diameter and up to a few micrometers in length have been synthesized solvothermally. High-resolution transmission electron microscopic images of the CuInSe₂NRs reveal the d-spacing of 0.335 nm for the (112) crystalline planes and a growth direction along [331]. The near-infrared absorption spectrum of the chalcopyrite CuInSe₂NRs shows a peak maximum at 1162 nm and an onset at 1262 nm, indicating no apparent blue-shift compared with those of Cu-rich CuInSe₂ thin films. An intense peak at 175.1 cm^-1 in the room-temperature Raman scattering spectrum of CuInSe₂NRs corresponds to the A₁ phonon mode of tetragonal CuInSe₂ chalcopyrite. The narrower full width at half-maximum (fwhm) of 9.5 cm^-1 for CuInSe₂NRs, in comparison with fwhm ∼ 12 cm^-1 for CuInSe₂ films, indicates a uniform size distribution and single crystallization in the nanorods. Analysis of the photoluminescence from the single-crystalline CuInSe₂NRs measured at 10 K has categorized the emission into seven groups of transitions as characterized by free excitons, bound excitons, conduction band to acceptor levels, and bound excitons at different defects.