2023
DOI: 10.1021/acscatal.3c02904
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Boosting C3H6 Epoxidation via Tandem Photocatalytic H2O2 Production over Nitrogen-Vacancy Carbon Nitride

Qinhua Zhang,
Longjian Li,
Qiang Zhou
et al.

Abstract: Propylene oxide (PO) is an important raw material in the plastics industry. The propylene epoxidation using O 2 without H 2 and noble metals is considered a fantasy reaction. Here we constructed a tandem system for photocatalytic in situ H 2 O 2 production and propylene epoxidation. In this tandem transformation system, we prepared carbon nitride containing N 3C vacancies in one step by the synergistic action of argon pyrolysis and a supramolecular self-assembly precursor. The introduction of N 3C vacancies si… Show more

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Cited by 25 publications
(9 citation statements)
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“…Additionally, there was a contraction in interlayer π-π stacking distances from 0.326 to 0.324 nm, accompanied by a slight shift in the (002) plane. [46] Similar results were obtained for the CN synthesized under argon [59,75] / nitrogen [76] /hydrogen gas [77] flow during thermal treatment while air/steam flow [75,78,79] was found to sharpen the (002) peak, indicating the increasing order of CN structure (Figure 3a, b and c). The existence of oxygen gas molecules during synthesis generates polarization on the surface owing to the electronegativity of oxygen atoms, thereby intensifying the interaction between the layers and consequently reducing the interplanar spacing.…”
Section: Unraveling the N-vacancy Puzzle: Synthesis Strategiessupporting
confidence: 78%
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“…Additionally, there was a contraction in interlayer π-π stacking distances from 0.326 to 0.324 nm, accompanied by a slight shift in the (002) plane. [46] Similar results were obtained for the CN synthesized under argon [59,75] / nitrogen [76] /hydrogen gas [77] flow during thermal treatment while air/steam flow [75,78,79] was found to sharpen the (002) peak, indicating the increasing order of CN structure (Figure 3a, b and c). The existence of oxygen gas molecules during synthesis generates polarization on the surface owing to the electronegativity of oxygen atoms, thereby intensifying the interaction between the layers and consequently reducing the interplanar spacing.…”
Section: Unraveling the N-vacancy Puzzle: Synthesis Strategiessupporting
confidence: 78%
“…The existence of oxygen gas molecules during synthesis generates polarization on the surface owing to the electronegativity of oxygen atoms, thereby intensifying the interaction between the layers and consequently reducing the interplanar spacing. [75,78,80] Likewise, Shi et al noted a reduction in the distance between CN layers, accompanied by an upward shift in the 2θ angle, with the increased addition of tartaric acid (Figure 3d). [81] Using HNO 3 and H 2 O 2 as additives with the purpose of oxidation were also an enhanced prominence of the (100) peak in CN, signifying an increase in plane size and expanded properties.…”
Section: Unraveling the N-vacancy Puzzle: Synthesis Strategiesmentioning
confidence: 76%
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