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Two-dimensional metal-organic frameworks with high oxidation states for efficient electrocatalytic urea oxidation

Journal Article


Abstract


  • A two-dimensional metal-organic framework (MOF) comprising nickel species and an organic ligand of benzenedicarboxylic acid is fabricated and explored as an electrocatalyst for urea oxidation reaction (UOR). The excellent UOR performance is found to be partially due to the high active site density of the two-dimensional MOF, and largely because of the high oxidation state of the nickel species.

Authors


  •   Zhu, Dongdong (external author)
  •   Guo, Chunxian (external author)
  •   Liu, Jinlong (external author)
  •   Wang, Liang (external author)
  •   Du, Yi
  •   Qiao, Shi (external author)

Publication Date


  • 2017

Citation


  • Zhu, D., Guo, C., Liu, J., Wang, L., Du, Y. & Qiao, S. (2017). Two-dimensional metal-organic frameworks with high oxidation states for efficient electrocatalytic urea oxidation. Chemical Communications, 53 (79), 10906-10909.

Scopus Eid


  • 2-s2.0-85030629842

Number Of Pages


  • 3

Start Page


  • 10906

End Page


  • 10909

Volume


  • 53

Issue


  • 79

Place Of Publication


  • United Kingdom

Abstract


  • A two-dimensional metal-organic framework (MOF) comprising nickel species and an organic ligand of benzenedicarboxylic acid is fabricated and explored as an electrocatalyst for urea oxidation reaction (UOR). The excellent UOR performance is found to be partially due to the high active site density of the two-dimensional MOF, and largely because of the high oxidation state of the nickel species.

Authors


  •   Zhu, Dongdong (external author)
  •   Guo, Chunxian (external author)
  •   Liu, Jinlong (external author)
  •   Wang, Liang (external author)
  •   Du, Yi
  •   Qiao, Shi (external author)

Publication Date


  • 2017

Citation


  • Zhu, D., Guo, C., Liu, J., Wang, L., Du, Y. & Qiao, S. (2017). Two-dimensional metal-organic frameworks with high oxidation states for efficient electrocatalytic urea oxidation. Chemical Communications, 53 (79), 10906-10909.

Scopus Eid


  • 2-s2.0-85030629842

Number Of Pages


  • 3

Start Page


  • 10906

End Page


  • 10909

Volume


  • 53

Issue


  • 79

Place Of Publication


  • United Kingdom