Controllable design of Zn-Ni-P on g-C3N4 for efficient photocatalytic hydrogen production

Li, Yanbing; Jin, Zhiliang; Zhang, Lijun; Fan, Kai

doi:10.1016/s1872-2067(18)63173-0

Cited by 187 publications

(54 citation statements)

References 49 publications

(46 reference statements)

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“…31,32 As for the P 2p spectrum (Fig. 1g), the peaks centered at B129.5 and B130.6 eV are attributed to the P-M (M = Zn/Ni) bonds, confirming the presence of Ni 2 P and ZnP 2 , [33][34][35][36] and the peaks at BEs of B133.2 and B134.0 eV are assigned to typical P-O species from partially superficial oxidation. Fig.…”

Section: Physicochemical and Structural Characteristics Of Yolkshell mentioning

confidence: 64%

Design and construction of bi-metal MOF-derived yolk–shell Ni₂P/ZnP₂ hollow microspheres for efficient electrocatalytic oxygen evolution

Zhang

Sun

Liu

et al. 2020

Mater. Chem. Front.

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Section: Physicochemical and Structural Characteristics Of Yolkshell mentioning

confidence: 64%

Design and construction of bi-metal MOF-derived yolk–shell Ni₂P/ZnP₂ hollow microspheres for efficient electrocatalytic oxygen evolution

Zhang

Sun

Liu

et al. 2020

Mater. Chem. Front.

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“…The characteristic absorption peaks of g‐C 3 N 4 and UiO‐66 can be clearly seen in CNCU‐3.The main absorption range of pure g‐C 3 N 4 was 3000–3500 cm −1 , corresponding to the N–H stretching vibration and the surface‐adsorbed OH. There were also distinct absorption peaks in the significant band of 1240–1640 cm −1 , with the peak at 1635 cm −1 corresponding to the heterocyclic stretching vibration of C−N and those at 1243, 1323, 1414, and 1570 cm −1 corresponding to the stretching vibration modes of the aromatic C−N; the peak observed at 807 cm −1 represents a particular breathing mode of the triazine unit…”

Section: Resultsmentioning

confidence: 99%

g‐C₃N₄/Cu₃P/UiO‐66 Ternary Composites for Enhanced Visible Light Photocatalytic H₂ Evolution

Jin

Cheng

et al. 2019

ChemistrySelect

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The synergistic composite g‐C3N4/Cu3P/UiO‐66 with a uniform three‐dimensional (3D) cubic structure distribution was synthesized by hydrothermal method. The larger spherical particles (UiO‐66) uniformly distributed on the g‐C3N4 flaky nanomaterial and the specific surface area of CNCU‐3 reaches an astonishing 1002.08 (m2/g), which is 23 times than that of the base material g‐C3N4. As a result of that, the addition of CU3P and MOF can effectively improve charge transfer and separation, and improve the hydrogen production activity of photocatalysts. The photocatalytic activity of g‐C3N4/Cu3P/UiO‐66 ternary composite was significantly better than that of monomer g‐C3N4, binary g‐C3N4/Cu3P and g‐C3N4/UiO‐66, especially, the introduction of UiO‐66 significantly increased hydrogen production, and the maximum hydrogen production reach 79 μmol in five hours. Moreover, XRD, SEM, TEM, PL, UV‐vis, XPS prove that Cu3P effectively conduct electrons to promote electron transfer and UiO‐66 provide large specific surface area. The synergistic effect of the these factors plays a key role in photocatalytic activity.

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“…In fact, the above results for the effective electrocatalytic H 2 -evolution reaction of Ni-P have been experimentally proven, where the Ni-P can be used as efficient active sites to reduce the overpotential of interfacial H 2 -evolution reaction [41]. Considering a similar mechanism between electroncatalytic and photocatalytic hydrogen evolutions, the Ni-P could be hopefully regarded as a superior H 2 -evolution cocatalyst for promoting the hydrogen-evolution performance of various photocatalysts [42]. Recently, the Ni-P as an efficient H 2 -evolution cocatalyst has been widely reported in the photocatalytic field.…”

Section: Introductionmentioning

confidence: 86%

Triethanolamine-mediated photodeposition formation of amorphous Ni-P alloy for improved H2-evolution activity of g-C3N4

Gao

et al. 2020

Sci. China Mater.

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Developing efficient, stable, and low-cost novel electron-cocatalysts is crucial for photocatalytic hydrogen evolution reaction. Herein, amorphous NiP alloy particles were successfully modified onto g-C 3 N 4 to construct the Ni-P/ g-C 3 N 4 photocatalyst through a simple and green triethanolamine (TEOA)-mediated photodeposition method. It was found that the TEOA could serve as an excellent complexing agent to coordinate with Ni 2+ to form [Ni(TEOA)] 2+ complex, which can promote the rapid and effective deposition of amorphous NiP alloy on the g-C 3 N 4 surface. Photocatalytic tests suggest that the hydrogen-evolution performance of g-C 3 N 4 can be greatly promoted through integrating amorphous NiP alloy. Especially, the Ni-P/g-C 3 N 4 (5 wt%) exhibits the superior H 2-generation activity (118.2 μmol h −1 g −1), which is almost 35.8 times that of bare g-C 3 N 4. Furthermore, the amorphous NiP alloy cocatalyst can also serve as the general hydrogen-production cocatalyst to greatly enhance the photocatalytic performance of traditional semiconductor materials such as TiO 2 and CdS. Based on the present results, the mechanism of the amorphous NiP alloy as the high-efficiency electron transfer medium was proposed for the boosted H 2generation rate. The present facile route may broaden the horizons for the efficient development of highly active cocatalysts in photocatalytic field.

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Controllable design of Zn-Ni-P on g-C3N4 for efficient photocatalytic hydrogen production

Cited by 187 publications

References 49 publications

Design and construction of bi-metal MOF-derived yolk–shell Ni₂P/ZnP₂ hollow microspheres for efficient electrocatalytic oxygen evolution

Design and construction of bi-metal MOF-derived yolk–shell Ni₂P/ZnP₂ hollow microspheres for efficient electrocatalytic oxygen evolution

g‐C₃N₄/Cu₃P/UiO‐66 Ternary Composites for Enhanced Visible Light Photocatalytic H₂ Evolution

Triethanolamine-mediated photodeposition formation of amorphous Ni-P alloy for improved H2-evolution activity of g-C3N4

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Controllable design of Zn-Ni-P on g-C3N4 for efficient photocatalytic hydrogen production

Cited by 187 publications

References 49 publications

Design and construction of bi-metal MOF-derived yolk–shell Ni2P/ZnP2 hollow microspheres for efficient electrocatalytic oxygen evolution

Design and construction of bi-metal MOF-derived yolk–shell Ni2P/ZnP2 hollow microspheres for efficient electrocatalytic oxygen evolution

g‐C3N4/Cu3P/UiO‐66 Ternary Composites for Enhanced Visible Light Photocatalytic H2 Evolution

Triethanolamine-mediated photodeposition formation of amorphous Ni-P alloy for improved H2-evolution activity of g-C3N4

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Design and construction of bi-metal MOF-derived yolk–shell Ni₂P/ZnP₂ hollow microspheres for efficient electrocatalytic oxygen evolution

Design and construction of bi-metal MOF-derived yolk–shell Ni₂P/ZnP₂ hollow microspheres for efficient electrocatalytic oxygen evolution

g‐C₃N₄/Cu₃P/UiO‐66 Ternary Composites for Enhanced Visible Light Photocatalytic H₂ Evolution