Shanhong Li, Z. Chu, F. Meng
Dec 15, 2016
Citations
2
Influential Citations
61
Citations
Journal
Journal of Alloys and Compounds
Abstract
Abstract Isopropanol has been widely used as solvents and synthetic chemical intermediates in many field, but is very harmful volatile organic compound to human health. Therefore, monitoring of isopropanol is urgently needed. Here we report a facile hydrothermal method to SnO 2 nanorings, which can be used as gas sensing materials for isopropanol detection. Measurement results show that the SnO 2 nanorings have rapid response, and good repeatability, highly gas sensitivity to isopropanol, and achieving the detection of isopropanol with a low concentration of 1 ppm. Moreover, we also explained the formation mechanism of the SnO 2 nanorings, suggesting that bubbles-template-assisted growth mechanism dominates the formation of the SnO 2 nanorings. The synthesis approach to SnO 2 nanorings and the achievement of detection to isopropanol with a low concentration are of fundamental importance to synthesis of sensing materials and environmental sciences.