Itai Carmeli

TL;DR: It is shown that the photocurrent generated by a single photosynthetic protein-photosystem I-can be measured using a scanning near-field optical microscope set-up and is in agreement with the internal electron transfer times of photosystem I.

TL;DR: Energy-resolved photoelectronic measurements indicate that the interaction of photosystem I with the metal surface leads to new molecule/substrate states, yielding energy states different from those of the individual components.

TL;DR: In this paper, a serially oriented multilayer of photosynthetic reaction center photosystem I (PS I) was fabricated by the photo-catalytic specificity that reduced Pt ions to metal patches on the reducing side of PSI forming junctions with the oxidizing end of the proteins through Pt-sulfide bond of genetically-engineered cysteine mutants.

TL;DR: Optoelectronically functionalize carbon nanotubes with the photosynthetic reaction center photosystem I according to three different on-chip chemical routes to allow the electrical contact of single PSI-CNT hybrid systems where the orientation of the PSI with respect to the CNTs depends on the binding mechanism.