Nanoreactor of Nickel‐Containing Carbon–Shells as Oxygen Reduction Catalyst

Li, Bing; Nam, Hyeong Seok; Zhao, Jiong; Chang, Jian; Lingappan, Niranjanmurthi; Yao, Fei; Lee, Tae Hoon; Lee, Young Hee

doi:10.1002/adma.201605083

Cited by 71 publications

(48 citation statements)

References 27 publications

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“…Metal oxide nanoparticles, metal-N 4 complexes, metal-C-N moieties, and defects of the carbon substrates could all independently function as active centers, but it is unknown which of these centers is best for ORR. The methods to enhance electrochemical activities mainly rely on four aspects: (1) increasing the intrinsic activities of active centers, [23][24][25] (2) augmenting the amount or concentration of active centers, [25][26][27] (3) optimizing mass transfer during the reaction, [28,29] (4) enhancing the conductivity of catalysts. [10][11][12][13][14] Such catalysts should be further explored to fulfill the requirements of cell optimizations and applications.…”

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confidence: 99%

“…[20] However, graphene and carbon nanotubes are not cheap, which have impeded practical applications. The methods to enhance electrochemical activities mainly rely on four aspects: (1) increasing the intrinsic activities of active centers, [23][24][25] (2) augmenting the amount or concentration of active centers, [25][26][27] (3) optimizing mass transfer during the reaction, [28,29] (4) enhancing the conductivity of catalysts. Vulcan XC72 conductive carbon black (VXC72) is one of the most widely used carbon materials in fuel cells due to its good dispersibility, large surface area, and high conductivity.…”

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confidence: 99%

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Modifying Commercial Carbon with Trace Amounts of ZIF to Prepare Derivatives with Superior ORR Activities

Chen

et al. 2017

Advanced Materials

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Reducing costs while maintaining high activities and stabilities of oxygen reduction reaction (ORR) catalysts has long been pursued for applications to membrane fuel cells. Here, an absorption-reaction method is used to prepare a zeolitic imidazolate framework coated commercial carbon, and the pyrolysis of such material brings about impressive ORR activities and stabilities with large diffusion-limited current density, half-wave potential, and no obvious decay after 10 000 cyclic voltammetry cycles, which is even better than that of the commercial Pt/C catalysts. The absorption-reaction method is realized by simply soaking the commercial carbon black sequentially in Co(NO ) and 2-methylimidazole solutions at ambient conditions. The detailed analysis on such carbon materials reveals that both Co and N are essential to activities, even the amount of N and Co species is very low. The reduction of raw materials and simplified handling procedures result in well-controlled costs in applications.

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Modifying Commercial Carbon with Trace Amounts of ZIF to Prepare Derivatives with Superior ORR Activities

Chen

et al. 2017

Advanced Materials

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“…Deconvoluted N 1s peak (Figure c) corresponding to pyridinic‐N (398.1 eV), Ni−N (398.8 eV), pyrrolic‐N (399.7 eV) and graphitic‐N (401.3 eV) indicated a successful N‐doping in the composite . Ni survey spectrum in Figure d showed Ni (852.7 eV), Ni 2p 3/2 Ni−N (854.2 eV) and Ni−O (855.9 eV), Ni 2p 1/2 Ni−N (871.5 eV) and Ni−O (873.0 eV) . The distinct Ni−N bonds in N 1s and Ni 2p spectra together with EDS mapping results confirmed the presence of Ni–N sites in Ni@NiNC‐600.…”

Section: Resultsmentioning

confidence: 99%

“…Polarization curves in Figure S8 showed that the ORR activity of Ni@NiNC‐600 decreased evidently in the presence of SCN − , whereas the OER activity of Ni@NiNC‐600 without obvious change. This result suggested that Ni–N active sites could be an important role for ORR activity …”

Section: Resultsmentioning

confidence: 99%

Designed Echinops‐Like Ni@NiNC as Efficient Bifunctional Oxygen Electrocatalyst for Zinc‐Air Batteries

Zhao

2018

ChemElectroChem

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A novel echinops‐like Ni@NiNC composite has been successfully fabricated by direct pyrolysis of a folic acid‐Ni complex. It was elucidated that the co‐existence of Ni and Ni−N active sites could promote the catalytic activity of ORR and OER simultaneously. Essentially, the unique echinops‐like structure with hierarchical porous morphology has indispensable contribution to charge transportation and exposure of active sites to O2 adsorption when assembled into a rechargeable zinc‐air battery.

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“…The void space in hollow particles has been proven to modulate the refractive index, lower density, increase active area for catalysis, and improve the anticancer immunity . Recently, nitrogen‐doped hollow carbon nanocapsules with encapsulated nickel nanoparticles were proven to show superior activity in the oxygen reduction reaction . The high performance was attributed to the hollow structure, which could confine oxygen inside a conformal space and allowed more effective collision frequency with catalysts.…”

Section: Introductionmentioning

confidence: 99%

Confinement of Reactive Oxygen Species in an Artificial‐Enzyme‐Based Hollow Structure To Eliminate Adverse Effects of Photocatalysis on UV Filters

Dong

Wang

et al. 2017

Chemistry A European J

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Skin cancers caused by UV irradiation have been a major public health problem. One simple and effective way to avoid the above detrimental effects is the use of UV-protective sunscreens. However, there has been considerable concern with the issue of the production of reactive oxygen species (ROS) through the photodegradation of commercial UV filters. Herein, for the first time, it is reported that the integration of ZnO nanoparticles and CeO nanoparticles into hollow microspheres (ZnO/CeO HMS) could provide broad-spectrum UV protection and scavenge generated ROS under UV irradiation. Benefiting from the cooperative effect of the hollow structure and the antioxidative activity of CeO , ROS generated under UV irradiation could be confined to a limited space and effectively conversion into nontoxic molecules is catalyzed as a consequence of increased collision frequency. Therefore, both primary, direct UV-induced damage and secondary ROS toxicity could be greatly reduced.

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Nanoreactor of Nickel‐Containing Carbon–Shells as Oxygen Reduction Catalyst

Cited by 71 publications

References 27 publications

Modifying Commercial Carbon with Trace Amounts of ZIF to Prepare Derivatives with Superior ORR Activities

Modifying Commercial Carbon with Trace Amounts of ZIF to Prepare Derivatives with Superior ORR Activities

Designed Echinops‐Like Ni@NiNC as Efficient Bifunctional Oxygen Electrocatalyst for Zinc‐Air Batteries

Confinement of Reactive Oxygen Species in an Artificial‐Enzyme‐Based Hollow Structure To Eliminate Adverse Effects of Photocatalysis on UV Filters

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