Em. Lindsay et al., Photochemical reactivity of W(CO)(4)(phen): Evidence for prompt one-electron transfer in competition with vibrational relaxation, INORG CHEM, 38(21), 1999, pp. 4771-4776
Excitation into either the metal-to-ligand charge-transfer, MLCT, band or t
he ligand field, LF, band of W(CO)(4-)(phen) promoted an electron transfer
to paraquat, PQ(2+). This process was observed spectroscopically by the app
earance of the characteristic bands of the well-known radical cation PQ(.+)
. Both nanosecond and picosecond flash photolysis were used to further exam
ine the electron-transfer reaction. Excitation of W(CO)(4)(phen) in the pre
sence of 10 mM PQ(2+) using a 355 nm, 30 ps pulse revealed the formation of
PQ(.+) within the pulse. This suggests the rate of electron transfer is ab
ove diffusion control and that either there must be some preassociation bet
ween the reactants prior to excitation or the reaction is mediated by forma
tion of a solvent radical tin a "hot" electron transfer(?)). A 355 nn, 10 n
s pulse was also used to excite W(CO)(4)(phen) in the presence of 10 mM PQ(
2+). Again, PQ(.+) was formed promptly and persisted for times on the order
of microseconds. Subsequently, competition between back electron transfer
(tau = 17 mu s) and net reaction was observed. The possibility of electron
transfer to "inert" halocarbons was also investigated. Picosecond and nanos
econd flash photolysis of W(CO)(4)(phen) using both 355 and 532 nm excitati
on in a halogenated solvent, C2Cl4, yielded a spectrum indicative of the pr
ompt formation (<30 ps) of reduced C2Cl4. Available estimates of potentials
require this to arise from a hot (not vibrationally relaxed) electron tran
sfer.