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Bacteriorhodopsin Thin-Film Assemblies—Immobilization, Properties, and Applications
96
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References
1999
Year
Optical MaterialsEngineeringSupramolecular AssemblyBacteriorhodopsin Thin-film Assemblies—immobilizationEnzyme ImmobilizationPhotopolymer NetworkThin Film ArchitecturesPhotophysical PropertyBiophysicsPhotochemistryMechanistic PhotochemistryBiophotonicsMolecular EngineeringSupramolecular PhotochemistryPhotochromismBiomolecular EngineeringImmobilization MethodsImmobilized EnzymeMicrobiologyMedicine
Supramolecular assembly of optically active materials into thin film architectures is a topic of significant practical importance. Improving the optical functionality and stability compared to the bulk state of typically fragile biological molecules is a driving force for work in this area. Here, the photocycle of Bacteriorhodopsin (bR, see Fig), and the immobilization methods used to generate thin film structures of bR are reviewed, potential applications are presented, and the controversial mechanism of the differential photoelectric response of bR is discussed.