Synthesis and efficient visible light photocatalytic H2 evolution of a metal-free g-C3N4/graphene quantum dots hybrid photocatalyst

Abstract: In this work, we report a systematic study of the relationship between photocatalytic properties of hydrogen evolution and structures and morphologies of g-C 3 N 4 prepared by different precursors (urea, melamine and dicyandiamide). The photocatalytic performances of H 2 production are affected by the method and degree of polymerization, the degree of protonation, and the morphology of g-C 3 N 4 prepared

“…For the C1 s spectra, both at samples show the same peaks located at 284.6 eV and 288.0 eV. The peak at 284.6 eV is typically attributed to the sp 2 CAN or graphitic carbon [23]. The peak at 288.0 eV is indexed to N@CAN 2 of the striazine ring (C 3 N 3 ) units or heptazine (C 6 N 7 ) unit.…”

“…The absorption peak at 1632 cm À1 correspond to the stretching vibration modes of the CAN heterocycles [21]. A broad band near 3000-3400 cm À1 corresponds to the NAH and OAH stretches, associated with amino groups (ANH 2 or @NH groups) and surface absorbed H 2 O molecules [22,23]. Fig.…”

“…Fig. 5B shows the photocurrent density-time curves of the bulk g-C 3 N 4 and E-g-C 3 N 4 to investigate the transmission ability of the photogenerated carriers under visible light irradiation [23,28]. The results show that the E-g-C 3 N 4 exhibits a higher photocurrent response than the bulk g-C 3 N 4.…”

“…The bandgap increases from 2.72 eV for the bulk g-C 3 N 4 to 2.85 eV for the E-g-C 3 N 4 after the Hummers treatment. The larger bandgap, which shows a stronger oxidation-reduction ability, can quickly cause the charge-transfer rate [23] and quantum confinement effects, which result in a high removal efficiency [24,25].…”

Improvement of g-C3N4 photocatalytic properties using the Hummers method

“…For the C1 s spectra, both at samples show the same peaks located at 284.6 eV and 288.0 eV. The peak at 284.6 eV is typically attributed to the sp 2 CAN or graphitic carbon [23]. The peak at 288.0 eV is indexed to N@CAN 2 of the striazine ring (C 3 N 3 ) units or heptazine (C 6 N 7 ) unit.…”

“…The absorption peak at 1632 cm À1 correspond to the stretching vibration modes of the CAN heterocycles [21]. A broad band near 3000-3400 cm À1 corresponds to the NAH and OAH stretches, associated with amino groups (ANH 2 or @NH groups) and surface absorbed H 2 O molecules [22,23]. Fig.…”

“…Fig. 5B shows the photocurrent density-time curves of the bulk g-C 3 N 4 and E-g-C 3 N 4 to investigate the transmission ability of the photogenerated carriers under visible light irradiation [23,28]. The results show that the E-g-C 3 N 4 exhibits a higher photocurrent response than the bulk g-C 3 N 4.…”

“…The bandgap increases from 2.72 eV for the bulk g-C 3 N 4 to 2.85 eV for the E-g-C 3 N 4 after the Hummers treatment. The larger bandgap, which shows a stronger oxidation-reduction ability, can quickly cause the charge-transfer rate [23] and quantum confinement effects, which result in a high removal efficiency [24,25].…”

Improvement of g-C3N4 photocatalytic properties using the Hummers method

“…[15,16] Meanwhile, GQDs have variouss urfacef unctional groups andt ypical fluorescence properties. [19] The former methodi st he way to obtain smallsize quantum dots from bulk graphene materials by chemical, physical, and electrochemical methods. [19] The former methodi st he way to obtain smallsize quantum dots from bulk graphene materials by chemical, physical, and electrochemical methods.…”

Graphene Quantum‐Dot‐Modified Hexagonal Tubular Carbon Nitride for Visible‐Light Photocatalytic Hydrogen Evolution

Polymeric Carbon Nitride‐Based Composites for Visible‐Light‐Driven Photocatalytic Hydrogen Generation