Addition of hot hydrogen atoms to 1-butene in the gas phase and dissociation of excited butyl radicals

Highly excited 2-butyl radicals have been generated by addition of hot hydrogen atoms to but-2-ene. Atoms of initial energy 130 k J mol-' and 161 kJ mol-' were produced by photolysis of HzS. Rates of decomposition of the highly excited 2-butyl radicals were monitored by analysis of stabilization and

By photolyzing azomethane over the temperature range 331-491 K in the presence of trifluoroacetone the kinetics of the addition reaction (11, CH3 + CF3COCH3 + CF,C(O)(CH, )z have been studied. Detailed analyses have shown that the principal product of the adduct radical, CF3C(0)(CH3)2, is CH,COCH, f

By pyrolyzing di-t-butyl peroxide over the temperature range of 405-450 K in the presence of hexafluoroacetone the kinetics of the addition reaction (l), CH3 + (CF3)zCO + (CF3)&(O)CH3, have been studied. Detailed analyses have shown that the principal product of the adduct radical, (CF3)&(O)CH3, is

## Abstract The thermal reactions of 1,3‐butadiene (BD) with cyclohexa‐1,3‐diene (CHD) have been studied in a static system between 437 and 526 K. The pressures of BD and CHD were varied from 61 to 397 torr and from 50 to 93 torr, respectively. The percentages of consumed BD and CHD were always kep

## Abstract The Diels–Alder addition of acrolein to cyclohexa‐1,3‐diene has been studied between 486 and 571°K at pressures ranging from 55 to 240 torr. The products are endo‐ and exo‐5‐formylbicyclo[2.2.2]oct‐2‐ene (endo‐ and exo‐FBO), and their formations are second order. The rate constants (in