Studies on self-sustained reaction-rate oscillations: I. Real-time surface infrared measurements during oscillatory oxidation of carbon monoxide on platinum |
| |
Authors: | VA Burrows S Sundaresan YJ Chabal SB Christman |
| |
Institution: | Princeton University, Princeton, New Jersey 08544, USA;AT&T Bell Laboratories, Murray Hill, New Jersey 07974, USA |
| |
Abstract: | Time-resolved infrared absorption features in the 1800–2400 cm?1 region during a typical cycle in the oscillatory oxidation of CO over a platinum foil were obtained by Fourier transform infrared reflection absorption spectroscopy. Pretreatment of the foil in an oxidizing environment at high temperatures was found to be necessary to induce large-amplitude, stable oscillations. The oscillations are approximately square-wave in shape, with a high and a low reaction-rate branch. The level of chemisorbed CO in the high reaction-rate branch is typically below the noise level, while in the low reaction-rate branch substantial substantial surface coverages of CO can be observed. No evidence for CO bridge-bonded to the platinum substrate or chemisorbed in the presence of a subsurface Pt oxide could be found at any time during the oscillation cycle. Evidence is presented for the existence of CO islands in the low reaction-rate branch. It is also shown that the low reaction rate realized in this branch is not due to blocking of the surface by chemisorbed CO. |
| |
Keywords: | To whom all correspondence should be addressed |
本文献已被 ScienceDirect 等数据库收录! |
|