Laser isotope separation of 13C by an elimination method

Separation of carbon i2113 isotopes has been achieved by selective predissociation of formaldehyde using a frequer.cydouble dye laser. The ~n~chme~t factor for pure formaldehyde samples is fess than expected from spectroscopic data but is greatly improved by the addition of NO. Starting from a 1:lO

A tunable ultraviolet Iascr has been used to imestigate the deuterium enrichment resulting from the phoropredissociation of formaldehyde. An enrichment factor of 2.54 + 30 has been measured at 345.6 nm starting from a 4Torr sample of natural formaldehydf. ? \_ introduction Formaldehyde wx one of the

The study of the loss of HCN €rom the molecular ions of [1-13C]-, [2-"C]-and [3-13C]-indolizine shows that, if the C-3 atom is eliminated predominantly, as may be expected, the C-2 atom, and (a) carbon atom(s) of the hexagonal ring are also involved. The losses of "CCH,' and GH,' from the [M-H"CN]"

## Abstract The study of the loss of HCN from the molecular ions of [2‐^13^C]indole and [3‐^13^C]indole shows that, to a good approximation, only the two carbon atoms of the pentagonal ring are involved in this fragmentation process, contrary to the behaviour of the H atoms; the C‐2 atom is elimina