The structure and optical properties of silicon nanowires prepared by inductively coupled plasma chemical vapor deposition

Abstract

Silicon nanowires were prepared by vapor–liquid–solid (VLS) mechanism at a growth temperature as low as 380 °C in an inductively coupled plasma chemical vapor deposition system. The nanowires consist of crystalline core surrounded by a thick amorphous silicon shell. An increase in plasma power produces dense and long nanowires with thick amorphous shell, accompanied with a thick uncatalyzed amorphous silicon film on the silicon substrate. Small catalyst nanoparticles are easier activated by plasma to grow the dense and thin nanowires in comparison with the large-size nanoparticles. Moreover, an enhanced optical absorption is achieved due to the strong light trapping and anti-reflection effects in the thin and tapered silicon nanowires with high density.