Yifat Nakibli scite author profile

We report a record 100% photon-to-hydrogen production efficiency, under visible light illumination, for the photocatalytic water-splitting reduction half-reaction. This result was accomplished by utilization of nanoparticle-based photocatalysts, composed of Pt-tipped CdSe@CdS rods, with a hydroxyl anion-radical redox couple operating as a shuttle to relay the holes. The implications of such record efficiency for the prospects of realizing practical over all water splitting and solar-to-fuel energy conversion are discussed.

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Size Matters: Cocatalyst Size Effect on Charge Transfer and Photocatalytic Activity

Nakibli

et al. 2017

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Hybrid semiconductor-metallic nanostructures play an important role in a wide range of applications and are key components in photocatalysis. Here we reveal that the nature of a nanojunction formed between a semiconductor nanorod and metal nanoparticle is sensitive to the size of the metal component. This is reflected in the activity toward hydrogen production, emission quantum yields, and the efficiency of charge separation which is determined by transient absorption spectroscopy. A set of Ni decorated CdSe@CdS nanorods with different tip size were examined, and an optimal metal domain size of 5.2 nm was obtained. Remarkably, charge separation time constants were found to be nonvariant with metal tip size. It is proposed that electron transfer mechanism encompasses two consecutive but separate processes: slow charge migration along the rod toward the interface, followed by fast interface crossing of the electron from the semiconductor into the metal phase. The first migration step dominates the time constant for the charge separation process and is not affected by the metal size. The efficiency of charge separation on the other hand was found to be sensitive to metal size. It is suggested that Coulomb blockade charging energy and a size-dependent Schottky barrier contribute to the metal size effect on charge transfer probability across the semiconductor-metal nanojunction. These two opposing trends result in an optimal metal size domain for the cocatalyst. This work is expected to benefit a broad range of applications utilizing semiconductor-metal nanocomposites.

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Less Is More: The Case of Metal Cocatalysts

Nakibli

Kalisman

Amirav

2015

J. Phys. Chem. Lett.

106

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We provide evidence that for a multielectron reaction such as hydrogen reduction, the photocatalyst design should include only a single cocatalytic site per each segment of the semiconductor capable of light excitation. This is to ensure that intermediates are formed at close proximity. These findings are demonstrated by evaluating the efficiency for hydrogen production over a nanoparticle-based photocatalyst consisting of Pt-decorated CdSe@CdS rods. Rods decorated with a single Pt catalyst were found to be the most active for hydrogen production, with QE of 27%, while rods having two reduction sites reached QE of only 18% and rods with multiple sites showed very low activity. The advantage of using a single catalytic site became negligible when the rods were employed in catalyzing a single electron reaction. We believe the implications of this finding are of significance for the proper design of photocatalysts aimed at solar-to-fuel energy conversion.

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Photosynthetic H2 generation and organic transformations with CdSe@CdS-Pt nanorods for highly efficient solar-to-chemical energy conversion

et al. 2020

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Selective Growth of Ni Tips on Nanorod Photocatalysts

Nakibli

Amirav

2016

Chem. Mater.

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Yifat Nakibli

Perfect Photon-to-Hydrogen Conversion Efficiency

Size Matters: Cocatalyst Size Effect on Charge Transfer and Photocatalytic Activity

Less Is More: The Case of Metal Cocatalysts

Photosynthetic H2 generation and organic transformations with CdSe@CdS-Pt nanorods for highly efficient solar-to-chemical energy conversion

Selective Growth of Ni Tips on Nanorod Photocatalysts

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