Production of CN(X) in the reaction of fast hydrogen atoms with HCN

## OMS Letters Dear Sir Production of X-rays in a Fast-Atom Bombardment Source A number of reports have suggested that reduction processes observed in fastatom bombardment spectra m a y originate, at least in part, from interaction of analyte or matrix with ionizing radiation. Wirth and co-workers

An oily product formed by the reaction of a domestic subbituminous coal (Taiheiyo coal) with hydrogen atoms at 200°C. has been characterized. The material is essentially composed of C,--C,, alkanes and cycloalkanes. The H/C ratio, specific gravity and refractive index were 1.81, 0.855 and 1.447, res

The violet emission spectrum (B\* Z-X' C) of the CN radical observed by the collision of HCN with metastable AI(~P, ?) atoms was analyzed. The effective rotational temperature of the CN(B2C) radical, 3s estimated from a band e&elope analysis, is about 2000°K. The disrributions of the excess energy t

Time-resolved IR emission spectroscopy (TRIES) has been used to study infrared emission in the 3400-3 100 cm-r region from HCN molecules produced when CN radicals abstract a hydrogen atom from ethane, propane, and chloroform. From these observations the nascent vibrational distributions of the HCN p

The reaction of 1-butanethiol with hydrogen atoms was investigated at room temperature under pressures of 133, 266, 532, 2660, and 5320 Pa, using two types of fast-flow discharge reactors; the main products were n-butane and 1-butene with total yields of more than 90%. In the reaction of 1-butanethi