Generation of ground electronic state haloalkyl radicals in the gas phase

Nucleobase-derived radicals are crucial transient intermediates in the radiation damage of nucleic acids (RNA and DNA). Among the recognized mechanisms of radiation damage, capture of a low-energy electron followed by protonation of the transient anion radical results in the formation of hydrogen-at

Zinc(II) complexes of substituted tetraphenylporphyrins, Zn[T(X-P)P], where X = H, p-F, p-Cl, m-Cl, p-CH 3 O, and m-CH 3 O, have been synthesized and characterized. Peripheral substitution shows marked changes in the chemical shifts of the phenyl proton resonances and E 1/2 values of the redox coupl

The rotational spectrum of the PD 2 radical in the 2 B 1 ground electronic state was observed in the region 165-463 GHz using a source-modulated microwave spectrometer. The PD 2 radical was generated in a free-space absorption cell by a dc glow discharge of D 2 over red phosphorus grains which were

The submillimeter-wave rotational transitions of TiCl in the ground state were observed using a double-modulation technique. TiCl was generated in a DC-discharge of a mixture of TiCl 4 vapor (less than 1 mTorr) and Ar buffer gas (80 mTorr) at a current of 200 mA. The 4 3/2 , 4 5/2 , 4 7/2 , and 4 9/