Gas‐Grain Processes for the Formation of CH4and H2O: Reactions of H Atoms with C, O, and CO in the Solid Phase at 12 K

Abstract

The reactions of H atoms with C, O, CO, and CH₃CN in solid phase at 12 K were investigated by temperature-programmed mass spectrometry. In the reaction of H atoms with C atoms trapped in the CO matrix, H atoms migrate in the CO matrix and react with trapped C atoms selectively to form CH₄. D₂O was the major product from the reactions of D atoms with O atoms trapped in a N₂O matrix. CH₄ was found to be one of the final products from the reactions of H atoms with solid CO. The precursor for the formation of CH₄ may be the CH₂OH radical. No products were detected from the reaction of H atoms with CH₃CN, suggesting that the nitrile group is not amenable to the hydrogenation reactions by H atoms at 12 K. When CH₄ molecules are trapped in matrices such as CH₃OH and H₂O, the desorption of CH₄ is greatly suppressed, i.e., from ~50 K for neat CH₄ to ~100 K for CH₄ in the CH₃OH matrix and to ~150 K for CH₄ in the H₂O matrix.