1 article(s) from Rakibuddin, Md
Schematic representation of the preparation of C3N4 nanoflakes (NFs), quantum dots (QDs) and the rG...
Jump to Figure 1
Powder X-ray diffraction patterns of the synthesized rGO-supported C3N4 (GCN) hybrid materials.
Jump to Figure 2
X-ray photoelectron spectroscopy analysis of the prepared GCN-5: a) survey spectrum, and high-resol...
Jump to Figure 3
Fourier transform infrared spectra of the prepared g-C3N4, CN nanoflakes and quantum dots, and GCN-...
Jump to Figure 4
TEM images of the a) CN-5, b) GCN-5, c) CN-10, d) GCN-10, e) CN-20 and GCN-20 nanoflakes and quantu...
Jump to Figure 5
Particle size distribution of the synthesized CN nanoflakes and quantum dots.
Jump to Figure 6
TEM image of CN nanoflake and quantum dot samples under heating at 190 °C for 5 h (a,b), 170 °C for...
Jump to Figure 7
Field emission scanning electron microscopy images of the a) g-C3N4 nanosheet, b) after acid treatm...
Jump to Figure 8
High-resolution transmission electron microscopy images of the GCN-5 quantum dots.
Jump to Figure 9
UV–vis absorption spectra of the photogenerated HCHO with Nash reagent (a–c), and (d) production ra...
Jump to Figure 10
Apparent yield of HCHO in the presence of the various photocatalysts.
Jump to Figure 11
Photostability of the GCN-5 sample against the production of HCHO.
Jump to Figure 12
Possible photoreduction mechanism of CO2 to HCHO in the presence of the GCN-5 catalyst sample under...
Jump to Figure 13
Beilstein J. Nanotechnol. 2019, 10, 448–458, doi:10.3762/bjnano.10.44
Subscribe to our Latest Articles RSS Feed.
Register and get informed about new articles.
Follow the Beilstein-Institut