​Improving carbon nitride photocatalysis by supramolecular preorganization of monomers

by M. Shalom, S. Inal, C. Fettkenhauer, D. Neher, M. Antonietti
Year:2013 DOI: DOI: 10.1021/ja402521s

Bibliography

​Improving carbon nitride photocatalysis by supramolecular preorganization of monomers
M. Shalom, S. Inal, C. Fettkenhauer, D. Neher, M. Antonietti
Journal of the American Chemical Society 135 (19), 7118-7121, 232, 2013

Abstract

Pub_ICN_2013Here we report a new and simple synthetic pathway to form ordered, hollow carbon nitride structures, using a cyanuric acid-melamine (CM) complex in ethanol as a starting product. A detailed analysis of the optical and photocatalytic properties shows that optimum hollow carbon nitride structures are formed after 8h of condensation. For this condensation time, we find a significantly reduced fluorescence intensity and lifetime, indicating the formation of new, nonradiative deactivation pathways, probably involving charge-transfer processes. Enhanced charge transfer is seen as well from a drastic increase of the photocatalytic activity in the degradation of rhodamine B dye, which is shown to proceed via photoinduced hole transfer. Moreover, we show that various CM morphologies can be obtained using different solvents, which leads to diverse ordered carbon nitride architectures. In all cases, the CM-C3N4 structures exhibited superior photocatalytic activity compared to the bulk material. The utilization of CM hydrogen-bonded complexes opens new opportunities for the significant improvement of carbon nitride synthesis, structure, and optical properties toward an efficient photoactive material for catalysis. 




Keywords

Fluorescence intensities Hydrogen-bonded complexes Nitride structures Non-radiative deactivation Photoactive materials Photocatalytic activities Photocatalytic property Synthetic pathways
KAUST

"KAUST shall be a beacon for peace, hope and reconciliation, and shall serve the people of the Kingdom and the world."

King Abdullah bin Abdulaziz Al Saud, 1924 – 2015

Contact Us

  • 4700 King Abdullah University of Science and Technology

    Thuwal 23955-6900, Kingdom of Saudi Arabia

Quick links

© King Abdullah University of Science and Technology. All rights reserved