Size-dependent visible light photocatalytic performance of Cu2O nanocubes

Sekar Karthikeyan; Santosh Kumar; Lee Durndell; Mark A Isaacs; Christopher M.a. Parlett; Ben Coulson; Richard Douthwaite; Zhi Jiang; Karen Wilson; Adam Fraser Lee

doi:10.1002/cctc.201800439

Size-dependent visible light photocatalytic performance of Cu2O nanocubes

Sekar Karthikeyan, Santosh Kumar, Lee Durndell, Mark A Isaacs, Christopher M.a. Parlett, Ben Coulson, Richard Douthwaite, Zhi Jiang, Karen Wilson, Adam Fraser Lee

College of Engineering and Physical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Well‐defined Cu2O nanocubes with tunable dimensions and physicochemical properties have been prepared using a simple one‐pot reaction. Reduction of Cu(II) salts by ascorbic acid in the presence of PEG as a structure‐directing agent affords crystalline Cu2O nanocubes of between 50 to 500 nm. Optical band gap, band energies, charge‐carrier lifetimes and surface oxidation state systematically evolve with nanocube size, and correlate well with visible light photocatalytic activity for aqueous phase phenol degradation and H2 production which are both directly proportional to size (doubling between 50 and 500 nm). HPLC reveals fumaric acid as the primary organic product of phenol degradation, and selectivity increases with nanocube size at the expense of toxic catechol. Apparent quantum efficiencies reach 26 % for phenol photodegradation and 1.2 % for H2 production using 500 nm Cu2O cubes.

Original language	English
Pages (from-to)	3554-3563
Journal	ChemCatChem
Volume	10
Issue number	16
Early online date	15 Jun 2018
DOIs	https://doi.org/10.1002/cctc.201800439
Publication status	Published - 21 Aug 2018

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Size-dependent visible light photocatalytic performance of Cu2OnanocubesAccepted author manuscript, 3.82 MB

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title = "Size-dependent visible light photocatalytic performance of Cu2O nanocubes",

abstract = "Well‐defined Cu2O nanocubes with tunable dimensions and physicochemical properties have been prepared using a simple one‐pot reaction. Reduction of Cu(II) salts by ascorbic acid in the presence of PEG as a structure‐directing agent affords crystalline Cu2O nanocubes of between 50 to 500 nm. Optical band gap, band energies, charge‐carrier lifetimes and surface oxidation state systematically evolve with nanocube size, and correlate well with visible light photocatalytic activity for aqueous phase phenol degradation and H2 production which are both directly proportional to size (doubling between 50 and 500 nm). HPLC reveals fumaric acid as the primary organic product of phenol degradation, and selectivity increases with nanocube size at the expense of toxic catechol. Apparent quantum efficiencies reach 26 % for phenol photodegradation and 1.2 % for H2 production using 500 nm Cu2O cubes.",

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AU - Karthikeyan, Sekar

AU - Kumar, Santosh

AU - Durndell, Lee

AU - Isaacs, Mark A

AU - Parlett, Christopher M.a.

AU - Coulson, Ben

AU - Douthwaite, Richard

AU - Jiang, Zhi

AU - Wilson, Karen

AU - Lee, Adam Fraser

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N2 - Well‐defined Cu2O nanocubes with tunable dimensions and physicochemical properties have been prepared using a simple one‐pot reaction. Reduction of Cu(II) salts by ascorbic acid in the presence of PEG as a structure‐directing agent affords crystalline Cu2O nanocubes of between 50 to 500 nm. Optical band gap, band energies, charge‐carrier lifetimes and surface oxidation state systematically evolve with nanocube size, and correlate well with visible light photocatalytic activity for aqueous phase phenol degradation and H2 production which are both directly proportional to size (doubling between 50 and 500 nm). HPLC reveals fumaric acid as the primary organic product of phenol degradation, and selectivity increases with nanocube size at the expense of toxic catechol. Apparent quantum efficiencies reach 26 % for phenol photodegradation and 1.2 % for H2 production using 500 nm Cu2O cubes.

AB - Well‐defined Cu2O nanocubes with tunable dimensions and physicochemical properties have been prepared using a simple one‐pot reaction. Reduction of Cu(II) salts by ascorbic acid in the presence of PEG as a structure‐directing agent affords crystalline Cu2O nanocubes of between 50 to 500 nm. Optical band gap, band energies, charge‐carrier lifetimes and surface oxidation state systematically evolve with nanocube size, and correlate well with visible light photocatalytic activity for aqueous phase phenol degradation and H2 production which are both directly proportional to size (doubling between 50 and 500 nm). HPLC reveals fumaric acid as the primary organic product of phenol degradation, and selectivity increases with nanocube size at the expense of toxic catechol. Apparent quantum efficiencies reach 26 % for phenol photodegradation and 1.2 % for H2 production using 500 nm Cu2O cubes.

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ER -

Size-dependent visible light photocatalytic performance of Cu2O nanocubes

Abstract

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