ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H<sub>2</sub>O<sub>2</sub>

Wang, Xiuhua; Gao, Jie; Xu, Bingang; Hua, Tao; Xia, Houyong

doi:10.1039/c5ra15821d

Cited by 27 publications

(9 citation statements)

References 42 publications

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“…S3). Those findings indicate that Mn-atom has the highest entrance/interaction into the Pd lattice in PdMn/CNTs sample and less into the PdMn-N 4 /CNTs sample, probably due to free Mn addition (MnCl 2 ) into PdMn/CNTs and coordinated Mn in MnPc (Mn-N 4 ) into PdMn-N 4 /CNTs 50,51 . This result agrees well with the lattice d -spacing data using HRTEM.…”

Section: Resultsmentioning

confidence: 96%

Carbon nanotubes-based PdM bimetallic catalysts through N4-system for efficient ethanol oxidation and hydrogen evolution reaction

Begum

Ahmed

Lee

et al. 2019

Sci Rep

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Transitional metal-nitrogen-carbon system is a promising candidate to replace the Pt-based electrocatalyst due to its superior activity, durability and cost effectiveness. In this study, we have designed a simple strategy to fabricate carbon nanotubes-supported binary-nitrogen-carbon catalyst via wet-chemical method. Palladium and transitional metals (M, i.e. manganese cobalt and copper) nanoparticles are anchored through four-nitrogen system onto carbon nanotubes (denoted as PdM-N 4 /CNTs). This material has been used as bifunctional electrocatalyst for electrochemical ethanol oxidation reaction and hydrogen evolution reaction for the first time. The N 4 -linked nanoparticles onto carbon nanotubes plays a crucial role in intrinsic catalytic activity for both reactions in 1 M KOH electrolyte. Among three PdM-N 4 /CNTs catalysts, the PdMn-N 4 /CNTs catalyst exhibits higher catalytic activity in terms of current density, mass activity and stability compared to the benchmark Pt/C. The robust electrocatalysis are inherited from the better attachment of PdMn through N 4 -system onto carbon nanotubes, comparatively smaller particles formation with better dispersion and higher electrical conductivity.

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Section: Resultsmentioning

confidence: 96%

Carbon nanotubes-based PdM bimetallic catalysts through N4-system for efficient ethanol oxidation and hydrogen evolution reaction

Begum

Ahmed

Lee

et al. 2019

Sci Rep

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“…[28] Among various strategies, one of the most ideal strategies for the visible light response is to joint narrow band gap semiconductors onto the surfaces of wide band gap (E g ) semiconductors to form the heterojunction by which increases the light absorption range to the solar spectrum. [29][30] CeO 2 is preferred candidate due to its unique superiorities such as high chemical stability and environmental friendliness, Ce (III) and Ce (IV) oxidation state conversion is easy which has a suitable valence band with ZnS. [31,32] In addition, CeO 2 has the higher oxygen-storage/release capacity and can also response to visible light which has been widely researched in the photocatalysis, especially in the photocatalytic hydrogen production fields.…”

Section: Introductionmentioning

confidence: 99%

“…In order to solve the problem, the numerous attempts have been made to extend the light absorption of ZnS into the visible light region for photocatalytic H 2 evolution, such as doping [27] and coupling with narrow bandgap semiconductors [28] . Among various strategies, one of the most ideal strategies for the visible light response is to joint narrow band gap semiconductors onto the surfaces of wide band gap (E g ) semiconductors to form the heterojunction by which increases the light absorption range to the solar spectrum [29–30] . CeO 2 is preferred candidate due to its unique superiorities such as high chemical stability and environmental friendliness, Ce (III) and Ce (IV) oxidation state conversion is easy which has a suitable valence band with ZnS [31,32] …”

Section: Introductionmentioning

confidence: 99%

Noble‐metal‐free MOF Derived ZnS/CeO₂ Decorated with CuS Cocatalyst Photocatalyst with Efficient Photocatalytic Hydrogen Production Character

Wang

Xiao

et al. 2020

ChemCatChem

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Inspired by the rich morphology of ZnO and cation-exchange technology, regular dodecahedron-like CeO 2 /ZnO was obtained by the calcination of Ce doped ZIF-8 precursor in this study, and CeO 2 /ZnS was obtained by the in-situ vulcanization of CeO 2 /ZnO. This design not only maintained the morphology of ZIF-8, but also enhanced the oxidation-reduction capacity of the catalyst. When the Ce content was 10 wt %, 10-CeO 2 /ZnS sample showed the best photocatalytic hydrogen production performance in all XÀ CeO 2 /ZnS samples. Loading of co-catalysts can effectively enhance the surface hydrogen reduction in photocatalytic water splitting by introducing a positive Schottky barrier. CuS was regarded as a promising cocatalyst to replace the noble metals due to its low cost and equivalent or even better performance. The in-situ cation exchange method was used to load co-catalyst CuS on the 10-CeO 2 /ZnS composites to obtain the 10-CeO 2 /ZnS-CuS composites which had the large specific surface area, regular dodecahedral structure and much excellent photolysis of water to produce hydrogen characters. This work provided a new strategy for the advantages combining of co-catalyst, p-n junction as well as the porous structure to enhance the photocatalytic characters.

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“…This technique has advantages over dye degradation without producing any secondary pollution to the environment. However, it is significant to get the degraded products that do not disturb the biological systems . TOC and COD measurements are used to find out the quality of water.…”

Section: Introductionmentioning

confidence: 99%

“…These drawbacks mainly affect the photocatalytic activity of single phase semiconductor metal oxide nanoparticles. Therefore, suitable modification of these semiconductor nanoparticles has been done to overcome the downsides. ,, Recently, delocalized conjugated polymers, carbon materials have been widely used as composite material to overcome the aforementioned drawbacks. Meanwhile the lowest unoccupied molecular orbital (LUMO) level of conjugated polymer is greater than the conduction band of ZnO, it could transfer the generated electrons under visible light irradiation which is thermodynamically favorable. , The conducting polymers act as photosensitizers and suppress the electron hole pair recombination of metal oxide nanoparticles that could enhance the photocatalytic activity of the composite material under visible light .…”

Section: Introductionmentioning

confidence: 99%

Photocatalytic Degradation of Rhodamine B Using Zinc Oxide Activated Charcoal Polyaniline Nanocomposite and Its Survival Assessment Using Aquatic Animal Model

Selvin¹,

Kumar

Sarala

et al. 2017

ACS Sustainable Chem. Eng.

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Zinc oxide activated charcoal polyaniline (ZACP) nanocomposite were prepared using a simple precipitation method. The as-synthesized photocatalyst was characterized by XRD, SEM, HRTEM, EDX, UV–vis, PL, XPS, and BET techniques. Results confirmed the successful incorporation of activated charcoal polyaniline (AC/PANI) on ZnO nanoparticles. The photocatalytic activity of the as-synthesized ZACP was assessed by the photodegradation of Rhodamine B (RhB) using visible light irradiation. The improved photocatalytic activity of the sample was ascribed to the synergetic effect between AC/PANI and ZnO which effectively separates the electron hole pair on the interface of PANI and ZnO. Survival assessment was carried out using Artemia salina (AS) to determine the detoxification potential of the degraded products. In survival assessment, treated dye solution exhibited less toxic effect when compared to the untreated dye solution. A mechanism was also proposed for the degradation of RhB dye using ZACP under visible light irradiation.

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ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H₂O₂

Cited by 27 publications

References 42 publications

Carbon nanotubes-based PdM bimetallic catalysts through N4-system for efficient ethanol oxidation and hydrogen evolution reaction

Carbon nanotubes-based PdM bimetallic catalysts through N4-system for efficient ethanol oxidation and hydrogen evolution reaction

Noble‐metal‐free MOF Derived ZnS/CeO₂ Decorated with CuS Cocatalyst Photocatalyst with Efficient Photocatalytic Hydrogen Production Character

Photocatalytic Degradation of Rhodamine B Using Zinc Oxide Activated Charcoal Polyaniline Nanocomposite and Its Survival Assessment Using Aquatic Animal Model

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ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H2O2

Cited by 27 publications

References 42 publications

Carbon nanotubes-based PdM bimetallic catalysts through N4-system for efficient ethanol oxidation and hydrogen evolution reaction

Carbon nanotubes-based PdM bimetallic catalysts through N4-system for efficient ethanol oxidation and hydrogen evolution reaction

Noble‐metal‐free MOF Derived ZnS/CeO2 Decorated with CuS Cocatalyst Photocatalyst with Efficient Photocatalytic Hydrogen Production Character

Photocatalytic Degradation of Rhodamine B Using Zinc Oxide Activated Charcoal Polyaniline Nanocomposite and Its Survival Assessment Using Aquatic Animal Model

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ZnO nanorod/nickel phthalocyanine hierarchical hetero-nanostructures with superior visible light photocatalytic properties assisted by H₂O₂

Noble‐metal‐free MOF Derived ZnS/CeO₂ Decorated with CuS Cocatalyst Photocatalyst with Efficient Photocatalytic Hydrogen Production Character