| Literature DB >> 31071946 |
Asif Hayat1, Mati Ur Rahman2, Iltaf Khan3, Javid Khan4, Muhammad Sohail5, Humaira Yasmeen6, Shu-Yuan Liu7,8, Kezhen Qi9, Wenxiu Lv10.
Abstract
This work incorporates a variety ofEntities:
Keywords: CO2 reduction; DFT calculation; donor-acceptor; photocatalysis; polymeric carbon nitride
Mesh:
Substances:
Year: 2019 PMID: 31071946 PMCID: PMC6539331 DOI: 10.3390/molecules24091779
Source DB: PubMed Journal: Molecules ISSN: 1420-3049 Impact factor: 4.411
Scheme 1Possible reaction path for the integration of 2,6-diaminopurine into PCN networks.
Figure 1Electronic structure of polymeric trimer models including the optimized HOMO and LUMO for CNU trimer (a) and DP-doped CNU trimer (b), corresponding HOMO–LUMO gap (c).
Figure 2(a) XRD patterns and (b) FTIR spectra of CNU and CNU-DPx samples.
Figure 3(a) N2 adsorption-desorption isotherms (77 K), (inset) pore size distribution graph, and (b) CO2 adsorption isotherms (273 K) for CNU and CNU-DP15.0 samples.
Figure 4(a,b) XPS survey spectrum, (c,d) high-resolution XPS spectra of C 1s, and (e,f) N 1s for CNU and CNU-DP15.0.
Figure 5(a) Solid-state 13C-NMR spectra, (b) EPR spectra of CNU and different amount of CNU-DPx samples, and (c) EPR spectra of CNU and CNU-DP15.0 in the dark and under visible light irradiation (>420 nm).
Figure 6(a,b) the SEM images and (c,d) TEM images of CNU and CNU-DPx samples.
Figure 7(a) UV–Vis DRS spectra of the CNU and CNU-DPx samples and (b) the photoluminescence spectrum under 400 nm excitation.
Figure 8(a) Time-production plot of CO and H2 by photoreduction of CO2, using CNU-DP15.0 as a catalyst under visible light irradiation. (b) The effect of integration of different amounts of DPx into the CNU framework for CO2 photoreduction as compared to blank CNU. (c) The dependence of CO2 photo-reduction on different incident light wavelengths. (d) Stability of the CNU-DP15.0 as a photocatalyst.
Figure 9(a) Various control experiments of CNU-DP15.0 photocatalyst using different organic solvents for the generation of CO and H2 under visible light. (b) Evolution of CO and H2 at various reaction temperatures (inset shows the selectivity).
Figure 10(a) Mass spectra (m/z = 29), and (b) gas chromatogram of the carbon source of the evolved CO in the photocatalytic reduction of 13CO2.
Figure 11(a) Periodic on/off photocurrent (b) the EIS Nyquist plots b/w CNU & CNU-DP15.0 at Ag/AgCl in a 0.2M Na2SO4 aqueous solution (pH 6.8) response under visible light irradiation (λ=420 nm).
Figure 12Schematic proposed mechanism of photocatalytic CO2 reduction.