Structural Investigation of Graphitic Carbon Nitride via XRD and Neutron Diffraction

Graphitic carbon nitride (g-C3N4) has, since 2009, attracted great attention for its activity as a visible-light-active photocatalyst for hydrogen evolution. Since it was synthesized in 1834, g-C3N4 has been extensively studied both catalytically and structurally. Although its 2D structure seems to...

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Published inChemistry of materials Vol. 27; no. 7; pp. 2612 - 2618
Main Authors Fina, Federica, Callear, Samantha K, Carins, George M, Irvine, John T. S
Format Journal Article
LanguageEnglish
Published American Chemical Society 14.04.2015
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Abstract Graphitic carbon nitride (g-C3N4) has, since 2009, attracted great attention for its activity as a visible-light-active photocatalyst for hydrogen evolution. Since it was synthesized in 1834, g-C3N4 has been extensively studied both catalytically and structurally. Although its 2D structure seems to have been solved, its 3D crystal structure has not yet been confirmed. This study attempts to solve the 3D structure of graphitic carbon nitride by means of X-ray diffraction and of neutron scattering. Initially, various structural models are considered and their XRD patterns compared to the measured one. After selecting possible candidates as g-C3N4 structure, neutron scattering is employed to identify the best model that describes the 3D structure of graphitic carbon nitride. Parallel chains of tri-s-triazine units organized in layers with an A–B stacking motif are found to describe the structure of the synthesized graphitic carbon nitride well. A misalignment of the layers is favorable because of the decreased π–π repulsive interlayer interactions.
AbstractList Graphitic carbon nitride (g-C3N4) has, since 2009, attracted great attention for its activity as a visible-light-active photocatalyst for hydrogen evolution. Since it was synthesized in 1834, g-C3N4 has been extensively studied both catalytically and structurally. Although its 2D structure seems to have been solved, its 3D crystal structure has not yet been confirmed. This study attempts to solve the 3D structure of graphitic carbon nitride by means of X-ray diffraction and of neutron scattering. Initially, various structural models are considered and their XRD patterns compared to the measured one. After selecting possible candidates as g-C3N4 structure, neutron scattering is employed to identify the best model that describes the 3D structure of graphitic carbon nitride. Parallel chains of tri-s-triazine units organized in layers with an A–B stacking motif are found to describe the structure of the synthesized graphitic carbon nitride well. A misalignment of the layers is favorable because of the decreased π–π repulsive interlayer interactions.
Author Fina, Federica
Irvine, John T. S
Carins, George M
Callear, Samantha K
AuthorAffiliation University of St. Andrews
ISIS Neutron and Muon Facility, STFC, Rutherford Appleton Laboratory
Harwell Oxford
School of Chemistry
AuthorAffiliation_xml – name: ISIS Neutron and Muon Facility, STFC, Rutherford Appleton Laboratory
– name: University of St. Andrews
– name: Harwell Oxford
– name: School of Chemistry
Author_xml – sequence: 1
  givenname: Federica
  surname: Fina
  fullname: Fina, Federica
– sequence: 2
  givenname: Samantha K
  surname: Callear
  fullname: Callear, Samantha K
– sequence: 3
  givenname: George M
  surname: Carins
  fullname: Carins, George M
– sequence: 4
  givenname: John T. S
  surname: Irvine
  fullname: Irvine, John T. S
  email: jtsi@st-andrews.ac.uk
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Snippet Graphitic carbon nitride (g-C3N4) has, since 2009, attracted great attention for its activity as a visible-light-active photocatalyst for hydrogen evolution....
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Title Structural Investigation of Graphitic Carbon Nitride via XRD and Neutron Diffraction
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