Understanding Synergism of Cobalt Metal and Copper Oxide toward Highly Efficient Electrocatalytic Oxygen Evolution

Niu, Wenhan; Shi, Jianjian; Ju, Licheng; Li, Zhao; Orlovskaya, Nina; Liu, Yuanyue; Yang, Yang

doi:10.1021/acscatal.8b03702

Cited by 67 publications

(51 citation statements)

References 45 publications

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“…[26] The synergic effect reaches the best when the ratio of Ni to NiO is ≈2.84:1) (seen in Figure 4), which seems to be well-understood because reduction and oxidation always inter-exist. [28] Similarly, their ECSA and EIS are also carried (seen in Figure 8e,f) and their results support good electrocatalytic OER and HER performance of sample SM-1.25.…”

Section: Electrocatalytic Performancesupporting

confidence: 54%

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Biomass‐Templated Preparation of Hierarchically Multi‐Functional Ni/NiO@C Hollow‐Fibers

Wang

Luo

et al. 2020

Part & Part Syst Charact

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core-shelled Ni/NiO nanowires via an N 2 H 4 ⋅H 2 O reduction method for microstructure and magnetic property investigations. [17] In addition, some carbon modified NiO/Ni materials were also prepared. [8-11,19,20] Chinnappan et al. synthesized C@NiO/Ni nanofibers via an electrospinning method for hydrogen evolution reaction. [11] Lv et al. prepared a series of MOF-derived NiO/Ni@C magnetic composites with chestnut shelllike hollow sphere structure for arsenic removal. [15] Nevertheless, it can be found that many methods are complicated, highcost, harm to the environment, thereby limiting their large-scale production and application. Currently, biomass template-assisted method has attracted extensive attention of researchers because it endows materials with diverse morphologies and improved performances. There are many biomass templates used, such as eggshell membrane, [12] ginkgo leaves, [22] chicken feathers, [23] cotton fibers, [24] pomelo-orange peels, [25,26] etc. Among them, cotton fiber (CF) consisting of cellulose and hemicellulose and pectin, contains abundant polar/active groups including-OH,-NH, and-C-O/N-C (seen in Figure S1, Supporting Information), making it well H 2 O-wet, swell, easily removed under air atmosphere. Thus, it is used as a vital template to give as-obtained material fibrous morphology and improved property. Herein, two series of hollow fibered Ni/NiO@C composites were successfully fabricated via a novel template-assisted dipping/adsorbing and calcining method by using CF as a multifunctional template and Ni(NO 3) 2 •6H 2 O as Ni source without any other additives, such as reducer, alkali agents, and extra carbon (C) source (Figure 1). During the preparation process, Ni 2+ ions were firstly adsorbed on the surface of wetting and swelling CFs to produce the precursors (Ni 2+ /CF), and then the precursors were calcined under an air condition to obtain target Ni/NiO@C material. It is worth pointing out that the asprepared materials show good magnetic, adsorptive, and electrolysis properties. 2. Results and Discussion 2.1. SEM and TEM Analyses Considering ST-200 sample delivered the best magnetic, adsorptive, and electrocatalytic properties, we thus take it as a Two series of hierarchically Ni/NiO@C hollow-fibers with magnetic, adsorptive, and electrocatalytic oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) properties are successfully prepared via a facile and green cotton fiber (CF)-templated dipping/adsorbing-calcining strategy. The effect of calcination temperature and CF amount on morphologies, components, and properties of the as-prepared materials is investigated. The results demonstrate that a proper CF template can endow the as-obtained materials with hierarchically hollow-fiber morphology and multi-components (Ni 0 , NiO, and C) at a certain calcination temperature, therefore providing excellent magnetic, adsorptive, and electrocatalytic OER and HER properties. Specifically, the unique hierarchical morphology and synergistic effect between Ni 0 and NiO remar...

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Section: Electrocatalytic Performancesupporting

confidence: 54%

“…[ 26 ] The synergic effect reaches the best when the ratio of Ni to NiO is ≈2.84:1) (seen in Figure 4), which seems to be well‐understood because reduction and oxidation always inter‐exist. [ 28 ]…”

Section: Resultsmentioning

confidence: 99%

Biomass‐Templated Preparation of Hierarchically Multi‐Functional Ni/NiO@C Hollow‐Fibers

Wang

Luo

et al. 2020

Part & Part Syst Charact

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“…As the electron structure of Co ion in CoOOH is generally in the low‐spin state ( t 2g 6 e g 0 ), [ 60 ] the dominant interaction in the Co‐O‐Co unit is electron–electron repulsion between the fully occupied π‐symmetry ( t 2g ) d‐orbitals of Co 3+ and the bridging O 2− , which is unfavorable for the electron transfer from the oxygen‐containing ligand to the Co 3+ center. [ 61 ] As for V ions, the t 2g orbitals are empty or filled with unpaired electrons, which is in favor of the π‐donation from O 2p to V 3d. Thus, the repulsion between O 2p and Co 3d will be relieved, leading to a 3d electron compensation from Co to V in the V‐O‐Co unit.…”

Section: Mechanism Investigationsmentioning

confidence: 99%

“d‐Electron Complementation” Induced V‐Co Phosphide for Efficient Overall Water Splitting

Zhang

Wei

et al. 2021

Advanced Energy Materials

116

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To generate “green hydrogen,” electrochemical water splitting is regarded as the most promising method, which requires highly efficient bifunctional electrocatalysts to accelerate the hydrogen and oxygen evolution reactions (HER and OER). Herein, a “d‐electron complementation” principle to develop such candidates is proposed. By taking advantage of the filling characteristics of 3d orbitals, vanadium‐cobalt phosphide (V‐CoP) is synthesized. According to X‐ray absorption fine structure and X‐ray photoelectron spectroscopy investigation, V can disorder the coordination environment of Co, leading to increased/decreased charge density in Co(P)/Co(O). As a result, V‐CoP shows impressive bifunctional activity, which only needs overpotentials of 46 and 267 mV to deliver 10 mA cm−2 for the HER and OER, respectively. Density functional theory calculations reveal that the accelerated H2O dissociation process on the VOx/CoOx/CoP surface and H conversion kinetics on the V‐neighboring CoCo bridge site result in promoted HER activity. Furthermore, the up‐shifted d‐band center of V‐CoOOH endows the V‐neighboring Co site with a lowered energy barrier for the OER. This work serves as a proof‐of‐concept for the application of the “d‐electron complementation” principle, which can be a generalized guideline to design and develop novel highly efficient catalysts.

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“…16,17 Nowadays, large numbers of researchers are aiming to develop Cu-based composites and have harvested many achievements in this regard. [18][19][20] Although these studies are very innovative, there is still a lot of room for improvement. Actually, the synthesis processes of most heterogeneous photocatalysts belong to the liquid-phase reaction.…”

Section: Introductionmentioning

confidence: 99%

Facile thermal exfoliation of Cu sheets towards the CuO/Cu₂O heterojunction: a cost-effective photocatalyst with visible-light response for promising sustainable applications

Chen

2019

RSC Adv.

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Understanding Synergism of Cobalt Metal and Copper Oxide toward Highly Efficient Electrocatalytic Oxygen Evolution

Cited by 67 publications

References 45 publications

Biomass‐Templated Preparation of Hierarchically Multi‐Functional Ni/NiO@C Hollow‐Fibers

Biomass‐Templated Preparation of Hierarchically Multi‐Functional Ni/NiO@C Hollow‐Fibers

“d‐Electron Complementation” Induced V‐Co Phosphide for Efficient Overall Water Splitting

Facile thermal exfoliation of Cu sheets towards the CuO/Cu₂O heterojunction: a cost-effective photocatalyst with visible-light response for promising sustainable applications

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Understanding Synergism of Cobalt Metal and Copper Oxide toward Highly Efficient Electrocatalytic Oxygen Evolution

Cited by 67 publications

References 45 publications

Biomass‐Templated Preparation of Hierarchically Multi‐Functional Ni/NiO@C Hollow‐Fibers

Biomass‐Templated Preparation of Hierarchically Multi‐Functional Ni/NiO@C Hollow‐Fibers

“d‐Electron Complementation” Induced V‐Co Phosphide for Efficient Overall Water Splitting

Facile thermal exfoliation of Cu sheets towards the CuO/Cu2O heterojunction: a cost-effective photocatalyst with visible-light response for promising sustainable applications

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Facile thermal exfoliation of Cu sheets towards the CuO/Cu₂O heterojunction: a cost-effective photocatalyst with visible-light response for promising sustainable applications