Abstract

Living bio-nano systems for artificial photosynthesis are of growing interest. Typically, these systems use photoinduced charge transfer to provide electrons for microbial metabolic processes, yielding a biosynthetic solar fuel. Here, we demonstrate an entirely different approach to constructing a living bio-nano system, in which electrogenic bacteria respire semiconductor nanoparticles to support nanoparticle photocatalysis. Semiconductor nanocrystals are highly active and robust photocatalysts for hydrogen (H₂) evolution, but their use is hindered by the oxidative side of the reaction. In this system, <i>Shewanella oneidensis</i> MR-1 provides electrons to a CdSe nanocrystalline photocatalyst, enabling visible light-driven H₂ production. Unlike microbial electrolysis cells, this system requires no external potential. Illuminating this system at 530 nm yields continuous H₂ generation for 168 h, which can be lengthened further by replenishing bacterial nutrients.