@article{6, author = {Joel Pennings and Bersu Azer and Marianna Uceda and Reza Karimi and Aydin Belgabad and Alexander Hu and Joseph Sanderson and Michael Pope and Mustafa Yavuz}, title = {Femtosecond Laser Irradiation as a Novel Method for Nanosheet Growth and Defect Generation in g-C3N4}, abstract = {
Among the many recently developed photo-catalytic materials, graphitic carbon nitride (g-C3N4) shows great promise as a catalytic material for water splitting, hydrogen generation, and related catalytic applications. Herein, synthesized bulk g-C3N4 is simply irradiated under a 35 fs pulse at mixed photon energies (800 nm and its second harmonic). g-C3N4 was synthesized from melamine following a facile thermal polymerization procedure. The prepared material was introduced, in an aqueous environment, to the femtosecond laser for various lengths of time. The treated material demonstrates a significant increase in surface area, relative to the untreated samples, indicating that irradiation is a successful method for exfoliation. The subsequent characterization reveals that the mixed irradiation process drives significant defect generation and sheet growth, which is not seen under 800 nm irradiation. Extended mixed irradiation results in 4 nm thick nanosheets with lateral dimensions 4x that of the bulk material. The treated material shows improved dye absorption/removal. This novel method of defect generation and nanosheet growth shows great potential as a g-C3N4 pre-treatment method for co-catalytic applications. Herein it is shown that femtosecond laser irradiation drives exfoliation beyond 100 nm particle sizes, and sheet-like morphologies under extended irradiation, which must be taken into account when using this method to improve material performance.
}, year = {2023}, journal = {Nanotechnology}, month = {05/2023}, url = {https://iopscience.iop.org/article/10.1088/1361-6528/acda3e/pdf}, doi = {https://doi.org/10.1088/1361-6528/acda3e}, }