Nature Search

Engineered disorder in CO₂ photocatalysis

Developing an efficient photocatalyst for CO₂ reduction is appealing. Here, the authors report a core-shell c-TiO₂@a-TiO_2-x(OH)_y heterostructure with surface frustrated Lewis pairs on amorphous shells which enables a new genre of chemical reactivity.

Zhao Li
Chengliang Mao
Geoffrey A. Ozin
ResearchOpen Access23 Nov 2022
Nature Communications

Volume: 13, P: 1-11
High-performance light-driven heterogeneous CO₂ catalysis with near-unity selectivity on metal phosphides

There exists an urgent need to develop new materials to convert CO₂ to useful products. Here, authors demonstrate metal phosphide nanoparticles to enable light-driven CO₂ hydrogenation with high activities and near-unity selectivity.

Yang-Fan Xu
Paul N. Duchesne
Geoffrey A. Ozin
ResearchOpen Access13 Oct 2020
Nature Communications

Volume: 11, P: 1-8
Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO₂ photocatalytic hydrogenation

Surface frustrated Lewis pairs (SFLPs) provide a unique class of active sites that enable efficient gas-phase CO₂ photocatalysis. How to tailor the reactivity of the SFLPs represents a major challenge, which the authors address here by single-site Bi³⁺ ion substitution of the SFLPs.

Tingjiang Yan
Na Li
Geoffrey A. Ozin
ResearchOpen Access30 Nov 2020
Nature Communications

Volume: 11, P: 1-10
Cu₂O nanocubes with mixed oxidation-state facets for (photo)catalytic hydrogenation of carbon dioxide

Cu₂O is a promising photocatalyst, although its stability is compromised by a disproportionation reaction that leads to the formation of Cu and CuO. Now, a method is reported to stabilize Cu₂O nanocubes, rendering them highly active and stable for the photocatalytic reverse water–gas shift reaction.

Lili Wan
Qixing Zhou
Geoffrey A. Ozin
Research09 Sept 2019
Nature Catalysis

Volume: 2, P: 889-898
Catalytic CO₂ reduction by palladium-decorated silicon–hydride nanosheets

Silicon–hydride materials are attractive candidates for the photoreduction of carbon dioxide into fuels, although they have only worked stoichiometrically so far. Now, Ozin and co-workers show how decorating silicon nanosheets with palladium nanoparticles renders the process catalytic.

Chenxi Qian
Wei Sun
Geoffrey A. Ozin
Research31 Dec 2018
Nature Catalysis

Volume: 2, P: 46-54

Search

Filter By:

Engineered disorder in CO2 photocatalysis

High-performance light-driven heterogeneous CO2 catalysis with near-unity selectivity on metal phosphides

Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO2 photocatalytic hydrogenation

Cu2O nanocubes with mixed oxidation-state facets for (photo)catalytic hydrogenation of carbon dioxide

Catalytic CO2 reduction by palladium-decorated silicon–hydride nanosheets

Search

Quick links

Engineered disorder in CO₂ photocatalysis

High-performance light-driven heterogeneous CO₂ catalysis with near-unity selectivity on metal phosphides

Bismuth atom tailoring of indium oxide surface frustrated Lewis pairs boosts heterogeneous CO₂ photocatalytic hydrogenation

Cu₂O nanocubes with mixed oxidation-state facets for (photo)catalytic hydrogenation of carbon dioxide

Catalytic CO₂ reduction by palladium-decorated silicon–hydride nanosheets