The wavelength and pressure dependence of the photolysis of propionaldehyde in air

The wavelen$t dependence of HCO(0,O.O) formation in the photodissociation ofacetaidehyde U.TS measured usirt~ muro~ (0.1 nm) bandrvidth Iaszr excitation and time-resoIved intracauity Iaser detection (TRILDf\_ A sharp energeric onset nt 320 + I nm (89.3 f 0.3 kcaf) for HCO(Oo.O,Q) formation wzs found

The photolysis of perfluorosuccinic anhydride vapour was studied in the pressure range 3.0 -70.2 Torr using light with wavelengths of 254, 232 and 220 nm. The products were CO, CO2 and C2F,: At higher pressures the quantum yield was 0.50 at all wavelengths, but at the zero pressure limit, the quantu

The quantum efficiencies of the primary processes in formaldehyde photolysis (61 and &z) were determined as a function of wavelength in the range from 2890 to 3380 A and a t 25OC: The estimates of 6 2 were derived from Q H ~ values obtained in photolyses of CHzO-isobutene mixtures at high isobutene

Magnetic field effects on the NO2 photolysis rate at an energy range below the dissociation threshold are shown to be identical to those observed in fluorescence. According to the data obtained, both the 'B2 and \*B, states of NO2 are reactive. The high pressure data have been explained in terms of

Quantum welds for the produchon of I(5 'P,,,) atoms from the photolysls of ICN in the A state continuum are presented as a funchon of wavelength Evidence is presented for the e%stence of at least three electronic states givmg rise to the rbsorp-Qon spectra. Primary photophysical processes mvolved m