Photochemical Energy Storage (Photosensitized Isomerization of Norbornadiene to Quadricyclane by Copper (I) Complexes).
Abstract
This research has focused on the sensitized photoisomerization step of a solar energy storage system based on the interconversion of norbornadiene (NBD) and quadricyclane (Q). Sensitizers studied in the photoisomerization were arylphosphine complexes of copper(I) halides (Ph3P)3CuX, (MePh2P)3CuX, (DIPHOS)CuC1; X = C1, Br, I and DIPHOS = Ph2P(CH2)2PPh2). The lowest electronic excited state of the complexes can be an effective triplet energy sensitizer as evidenced by a maximum quantum yield of 1.0 with (MePh2P)3CuX. The sensitization mechanism of the L3CuX complexes is proposed as a bimolecular energy transfer process in which energy transfer takes place through the metal centered orbitals. The efficiency of the (MePh2P)3CuX sensitizers is unprecedented by other reported inorganic or organic sensitizers; however, ligand dissociation of the complexes in dilute solutions detracts from their otherwise attractive features. The free ligands undergo rapid photodecomposition and are extremely poor sensitizers of the NBD/Q system.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1983
- Accession Number
- ADA135363
Entities
People
- D. J. Fife
Organizations
- Air Force Institute of Technology