Evan A. Gizzie scite author profile

Over the course of a few billion years, nature has developed extraordinary nanomaterials for the efficient conversion of solar energy into chemical energy. One of these materials, photosystem I (PSI), functions as a photodiode capable of generating a charge separation with nearly perfect quantum efficiency. Because of the favorable properties and natural abundance of PSI, researchers around the world have begun to study how this protein complex can be integrated into modern solar energy conversion devices. This feature article describes some of the recent materials and methods that have led to dramatic improvements (over several orders of magnitude) in the photocurrents and photovoltages of biohybrid electrodes based on PSI, with an emphasis on the research activities in our laboratory.

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Evan A. Gizzie

Enhanced Photocurrents of Photosystem I Films on p‐Doped Silicon

Photosystem I-polyaniline/TiO₂solid-state solar cells: simple devices for biohybrid solar energy conversion

Photosystem I Protein Films at Electrode Surfaces for Solar Energy Conversion

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Evan A. Gizzie

Enhanced Photocurrents of Photosystem I Films on p‐Doped Silicon

Photosystem I-polyaniline/TiO2solid-state solar cells: simple devices for biohybrid solar energy conversion

Photosystem I Protein Films at Electrode Surfaces for Solar Energy Conversion

Contact Info

Product

Resources

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Photosystem I-polyaniline/TiO₂solid-state solar cells: simple devices for biohybrid solar energy conversion