R.J. Berry, R.J. Waltman, et al.
Journal of Physical Chemistry
While p-diethylaminobenzaldehyde diphenylhydrazone, 1, efficiently photoconverts to 1-phenyl-3-(4-diethylamino-1-phenyl)-1,3-indazole, 2, with a quantum yield ø = 0.4 ± 0.1, excitation by a high energy electron beam (175 kV) induces very little chemistry. The G value for decomposition of 1 is <0.07; also, the products which are a result of the electron beam exposure differ from the photochemical products. A most likely cause of the extreme contrast between the u.v. and electron beam excitation is the ability of 1 to efficiently ionize and transport holes in the solid state. © 1987.
R.J. Berry, R.J. Waltman, et al.
Journal of Physical Chemistry
J. Pacansky, R.J. Waltman
ACS PMSE 1988
R.J. Waltman, J. Bargon
Canadian Journal of Chemistry
J. Pacansky, R.J. Waltman, et al.
Symposium on Molecular Modeling of Petroleum Processes and Catalysis 1992