首页>
外文期刊>journal of chemical physics
>Vacuum Ultraviolet Photochemistry. III. Primary Processes in the Vacuum Ultraviolet Photolysis of Water and Ammonia
【24h】
Vacuum Ultraviolet Photochemistry. III. Primary Processes in the Vacuum Ultraviolet Photolysis of Water and Ammonia
展开▼
机译:Vacuum Ultraviolet Photochemistry. III. Primary Processes in the Vacuum Ultraviolet Photolysis of Water and Ammonia
Water and ammonia have each been photolyzed in the absence and presence of C2D4which served to scavenge H atoms. Wavelengths used were: for ammonia, 1849 and 1236 A; for water, 1236 A. Under conditions where H atoms are efficiently scavenged by C2D4, the production of H2signifies a primary photochemical process giving molecular H2directly. It is found that at 1849 A, ammonia decomposes almost entirely to H+NH2. At 1236 A, two primary processes are observed.(a)NH3rarr;H2plus;NH,(b)NH3rarr;Hplus;NH2.Process (a) is about frac16; as probable as process (b). At 1236 A, the photolysis of water proceeds via two primary processes.(c)H2Orarr;Hplus;OH,(d)H2Orarr;H2plus;O.The probability of process (c) being three times that of process (d). It is suggested that primary process (d) constitutes a reasonable photochemical mechanism for hydrogen formation in the earth's upper atmosphere.
展开▼