Reaction of photochemically generated hot hydrogen atoms with 1-butene

## The integral reaction probability for the reaction of hot hydrogen atoms with CH,CI, H* c CH,CI + HCI + CH3. has been determined as a function of the initial energy of the H atoms. The apparent threshold en;-rgy for the &action. which is expected IO be higher than the true threshofd. is 47r 14

The reaction of photochemically generated energetic hydrogen atoms with 1-chloropropane, reaction ( l ) , (1) has been examined for translational energies of H' in the range 40 to 110 kJ mol-'. Integral probabilities for reaction (1) have been determined, and the phenomenological threshold energy

## Abstract The reaction of hot hydrogen atoms originating from 253.7‐ and 228.8‐nm photolyses of hydrogen sulfide with 1‐butene was investigated. Of the hydrogen atoms undergoing addition a substantial part undergoes it in a first collision (37 and 48% at 253.7 and 228.8 nm, respectively) yielding

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

The reactions with CHjF of photochemically produced tritium atoms from TBr have been studied at various v+xvelengths. The energy threshold is lower and the relative yield higher for F replacement than for H repkement in CHaF. These near-threshold substitution reactions are consistent with an inversi