Vertically aligned single-crystalline silicon nanocone(Si-NC) arrays are grown on nickel-coated silicon(100) substrates by a novel method i.e., abnormal glow-discharge plasma sputtering reaction deposition. The experimental results show that the inlet CH_4/(N_2+H_2) ratio has great effects on the morphology of the grown Si-NC arrays.The characterization of the morphology; crystalline structure and composition of the grown Si-NCs indicates that the Si-NCs are grown epitaxially in the vapor-liquid-solid mode. The analyses of optical emission spectra further reveal that the inlet methane can promote the growth of Si-NCs by raising the plasma temperature and enhancing the ion-sputtering. The understanding of the growth mechanism of the Si-NC arrays will be helpful for fabrication of required Si-NC arrays. Vertically aligned single-crystalline silicon nanocone (Si-NC) arrays are grown on nickel-coated silicon (100) substrates by a novel method ie, abnormal glow-discharge plasma sputtering reaction deposition. The experimental results show that the inlet CH 4 / (N 2 + H_2) ratio has great effects on the morphology of the grown Si-NC arrays. The characterization of the morphology; crystalline structure and composition of the grown Si-NCs indicates that the Si-NCs are grown epitaxially in the vapor-liquid-solid mode. The analyzes of optical emission spectra further reveal that the inlet methane can promote the growth of Si-NCs by raising the plasma temperature and enhance the ion-sputtering. The understanding of the growth mechanism of the Si-NC arrays will be helpful for fabrication of required Si-NC arrays.