Simultaneous photocatalytic removal of nitrate and oxalic acid over Cu2O/TiO2 and Cu2O/TiO2-AC composites

Simultaneous photocatalytic removal of nitrate and oxalic acid over Cu2O/TiO2 and Cu2O/TiO2-AC composites

[Display omitted] •Copper promoted the photocatalytic performance of titania for nitrate reduction.•XPS, TPR and FTIR confirm that copper was present as Cu2O.•Addition of activated carbon reduced reaction rates but improved selectivity to N2.•System is stable with no detected loss of copper species....

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Published in:Applied catalysis. B, Environmental Vol. 217; pp. 181 - 191
Main Authors: Adamu, Haruna, McCue, Alan J., Taylor, Rebecca S.F., Manyar, Haresh G., Anderson, James A.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-11-2017
Subjects:
Activated carbon
Composites
Nitrate
Oxalic acid
Photocatalysis
Titania
Composites
Nitrate
Oxalic acid
Titania
Activated carbon
Photocatalysis
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Abstract [Display omitted] •Copper promoted the photocatalytic performance of titania for nitrate reduction.•XPS, TPR and FTIR confirm that copper was present as Cu2O.•Addition of activated carbon reduced reaction rates but improved selectivity to N2.•System is stable with no detected loss of copper species. Cu2O/TiO2 (1–10wt% Cu2O) and 2.5% Cu2O/TiO2-AC (2.5–20wt% AC) photocatalyst composites were synthesised by an ethanol reduction method. The materials were characterised by a number of techniques which confirmed the presence of Cu2O in contact with the TiO2. Pure TiO2 alone was not active for the simultaneous photocatalytic removal of nitrate and oxalic acid under conditions employed, however, photocatalytic activity was observed for TiO2 and TiO2/AC in the presence of Cu2O. This may have resulted from suppression of charge recombination via creation of a p-n heterojunction between Cu2O and TiO2. Within the series, 2.5% Cu2O/TiO2 exhibited the best photocatalytic performance with 57.6 and 99.8% removal of nitrate and oxalic acid, respectively, with selectivities of 45.7, 12.4 and 41.9% to NH4+, NO2− and N2, respectively after 3h. For the carbon containing photocatalysts, 2.5% Cu2O/TiO2-2·5AC displayed the highest activity with 42.5 and 96.6% removal of nitrate and oxalic acid, respectively, with 32.7, 11.6 and 55.7% selectivities to NH4+, NO2− and N2, respectively. The highest AC loading tested resulted in selectivity to NH4+ of 21.6 with no NO2− detected, together with an improved N2 selectivity (78.4%) albeit at lower (12.7%) nitrate conversion. Data suggests that Cu2O/TiO2 can be used in the photocatalytic reduction of nitrate and improved selectivity towards N2 can be attained by influencing factors which control the relative rate of oxalic acid consumption.
AbstractList [Display omitted] •Copper promoted the photocatalytic performance of titania for nitrate reduction.•XPS, TPR and FTIR confirm that copper was present as Cu2O.•Addition of activated carbon reduced reaction rates but improved selectivity to N2.•System is stable with no detected loss of copper species. Cu2O/TiO2 (1–10wt% Cu2O) and 2.5% Cu2O/TiO2-AC (2.5–20wt% AC) photocatalyst composites were synthesised by an ethanol reduction method. The materials were characterised by a number of techniques which confirmed the presence of Cu2O in contact with the TiO2. Pure TiO2 alone was not active for the simultaneous photocatalytic removal of nitrate and oxalic acid under conditions employed, however, photocatalytic activity was observed for TiO2 and TiO2/AC in the presence of Cu2O. This may have resulted from suppression of charge recombination via creation of a p-n heterojunction between Cu2O and TiO2. Within the series, 2.5% Cu2O/TiO2 exhibited the best photocatalytic performance with 57.6 and 99.8% removal of nitrate and oxalic acid, respectively, with selectivities of 45.7, 12.4 and 41.9% to NH4+, NO2− and N2, respectively after 3h. For the carbon containing photocatalysts, 2.5% Cu2O/TiO2-2·5AC displayed the highest activity with 42.5 and 96.6% removal of nitrate and oxalic acid, respectively, with 32.7, 11.6 and 55.7% selectivities to NH4+, NO2− and N2, respectively. The highest AC loading tested resulted in selectivity to NH4+ of 21.6 with no NO2− detected, together with an improved N2 selectivity (78.4%) albeit at lower (12.7%) nitrate conversion. Data suggests that Cu2O/TiO2 can be used in the photocatalytic reduction of nitrate and improved selectivity towards N2 can be attained by influencing factors which control the relative rate of oxalic acid consumption.
Author Adamu, Haruna
Anderson, James A.
Taylor, Rebecca S.F.
McCue, Alan J.
Manyar, Haresh G.
Author_xml – sequence: 1
  givenname: Haruna
  surname: Adamu
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  givenname: Alan J.
  surname: McCue
  fullname: McCue, Alan J.
  organization: Surface Chemistry and Catalysis Group, Materials and Chemical Engineering, School of Engineering, University of Aberdeen, AB24 3UE, UK
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  givenname: Rebecca S.F.
  surname: Taylor
  fullname: Taylor, Rebecca S.F.
  organization: School of Chemical Engineering and Analytical Science, The University of Manchester, The Mill,Sackville Street, Manchester, M13 9PL, UK
– sequence: 4
  givenname: Haresh G.
  surname: Manyar
  fullname: Manyar, Haresh G.
  organization: CenTACat, School of Chemistry and Chemical Engineering, Queen’s University Belfast, David-Keir Building, Stranmillis road, Belfast, BT9 5AG, UK
– sequence: 5
  givenname: James A.
  surname: Anderson
  fullname: Anderson, James A.
  email: j.anderson@abdn.ac.uk
  organization: Surface Chemistry and Catalysis Group, Materials and Chemical Engineering, School of Engineering, University of Aberdeen, AB24 3UE, UK
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Keywords Composites
Nitrate
Oxalic acid
Titania
Activated carbon
Photocatalysis
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Snippet [Display omitted] •Copper promoted the photocatalytic performance of titania for nitrate reduction.•XPS, TPR and FTIR confirm that copper was present as...
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SubjectTerms Activated carbon
Composites
Nitrate
Oxalic acid
Photocatalysis
Titania
Title Simultaneous photocatalytic removal of nitrate and oxalic acid over Cu2O/TiO2 and Cu2O/TiO2-AC composites
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