Abstract
Two self-assembled photoanodes have been constructed by exploiting the unique optical and structural properties of aluminum(III) porphyrin (AlPor) in conjunction with TiO2 nanoparticles as an electron acceptor and bis(p-anisole)aminopyridine (BAA–Py) as an electron donor. AlPor is bound to the TiO2 surface by either: (i) a benzohydroxamic acid bridge, in which the hydroxamic acid acts as an anchor or (ii) direct covalent binding of Al via an ether bond. The open sixth coordination site of the Al center is then used to coordinate BAA–Py through Lewis acid–base interactions, which results in donor–photosensitizer–semiconductor constructs that can be used as photoanodes. The two photoanodes were characterized by steady-state and transient spectroscopic techniques as well as computational methods. Transient-absorption studies show that in the absence of BAA–Py both the photoanodes exhibit electron injection from AlPor to the conduction band of TiO2. However, the injection efficiencies and kinetics are strongl...
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