Tailoring Binding Abilities by Incorporating Oxophilic Transition Metals on 3D Nanostructured Ni Arrays for Accelerated Alkaline Hydrogen Evolution Reaction

Kim, Jaerim; Jung, Hyeonjung; Jung, Sang‐Mun; Hwang, Jinwoo; Kim, Dong Yeong; Lee, Noho; Kim, Kyu‐Su; Kwon, Hoon; Kim, Yong‐Tae; Han, Jeong Woo; Kim, Jong Kyu

doi:10.1021/jacs.0c10661

Cited by 175 publications

(116 citation statements)

References 87 publications

(121 reference statements)

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“…The transition state of the catalytic reaction was determined using the climbing image nudged elastic band (Cl-NEB) method 41 , 42 . Zero-point energy correction was obtained from vibrational frequencies by applying normal-mode analysis through DFT calculations 43 . We fixed the catalyst substrate and only allowed the adsorbing molecule to vibrate.…”

Section: Methodsmentioning

confidence: 99%

Adjacent single-atom irons boosting molecular oxygen activation on MnO2

et al. 2021

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Efficient molecular oxygen activation is crucial for catalytic oxidation reaction, but highly depends on the construction of active sites. In this study, we demonstrate that dual adjacent Fe atoms anchored on MnO2 can assemble into a diatomic site, also called as MnO2-hosted Fe dimer, which activates molecular oxygen to form an active intermediate species Fe(O = O)Fe for highly efficient CO oxidation. These adjacent single-atom Fe sites exhibit a stronger O2 activation performance than the conventional surface oxygen vacancy activation sites. This work sheds light on molecular oxygen activation mechanisms of transition metal oxides and provides an efficient pathway to activate molecular oxygen by constructing new active sites through single atom technology.

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Section: Methodsmentioning

confidence: 99%

Adjacent single-atom irons boosting molecular oxygen activation on MnO2

et al. 2021

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“…The charge transfer resistance ( R ct ) is the diameter of semicircle in the low‐frequency zone of EIS, which is related to the electrocatalytic kinetics. [ 26,27 ] The smallest R ct value of the Ru Δc→h /C represents the fastest electrocatalytic faradaic process and electron transfer between the interfaces, thus indicating the highest HER performance among catalysts.…”

Section: Resultsmentioning

confidence: 99%

Crystal Phase Transition Creates a Highly Active and Stable RuC_X Nanosurface for Hydrogen Evolution Reaction in Alkaline Media

Kim

Ruqia

et al. 2021

Advanced Materials

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Although metastable crystal structures have received much attention owing to their utilization in various fields, their phase‐transition to a thermodynamic structure has attracted comparably little interest. In the case of nanoscale crystals, such an exothermic phase‐transition releases high energy within a confined surface area and reconstructs surface atomic arrangement in a short time. Thus, this high‐energy nanosurface may create novel crystal structures when some elements are supplied. In this work, the creation of a ruthenium carbide (RuCX, X < 1) phase on the surface of the Ru nanocrystal is discovered during phase‐transition from cubic‐close‐packed to hexagonal‐close‐packed structure. When the electrocatalytic hydrogen evolution reaction (HER) is tested in alkaline media, the RuCX exhibits a much lower overpotential and good stability relative to the counterpart Ru‐based catalysts and the state‐of‐the‐art Pt/C catalyst. Density functional theory calculations predict that the local heterogeneity of the outermost RuCX surface promotes the bifunctional HER mechanism by providing catalytic sites for both H adsorption and facile water dissociation.

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“…Among them, Ni can be considered the most promising catalyst for AEMWE since it can be used both as anodic and as cathodic catalysts for this type of process. Some authors such as Kim J. et al [68] have investigated the HER activity improvement of nickel after adding a series of transition metals such as Fe, Cr, and Ti. They found that the Cr-Ni catalyst shows the highest HER performance in a 1.0 M KOH solution.…”

Section: Her Catalystsmentioning

confidence: 99%

Recent Advances in Alkaline Exchange Membrane Water Electrolysis and Electrode Manufacturing

et al. 2021

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Water electrolysis to obtain hydrogen in combination with intermittent renewable energy resources is an emerging sustainable alternative to fossil fuels. Among the available electrolyzer technologies, anion exchange membrane water electrolysis (AEMWE) has been paid much attention because of its advantageous behavior compared to other more traditional approaches such as solid oxide electrolyzer cells, and alkaline or proton exchange membrane water electrolyzers. Recently, very promising results have been obtained in the AEMWE technology. This review paper is focused on recent advances in membrane electrode assembly components, paying particular attention to the preparation methods for catalyst coated on gas diffusion layers, which has not been previously reported in the literature for this type of electrolyzers. The most successful methodologies utilized for the preparation of catalysts, including co-precipitation, electrodeposition, sol–gel, hydrothermal, chemical vapor deposition, atomic layer deposition, ion beam sputtering, and magnetron sputtering deposition techniques, have been detailed. Besides a description of these procedures, in this review, we also present a critical appraisal of the efficiency of the water electrolysis carried out with cells fitted with electrodes prepared with these procedures. Based on this analysis, a critical comparison of cell performance is carried out, and future prospects and expected developments of the AEMWE are discussed.

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Tailoring Binding Abilities by Incorporating Oxophilic Transition Metals on 3D Nanostructured Ni Arrays for Accelerated Alkaline Hydrogen Evolution Reaction

Cited by 175 publications

References 87 publications

Adjacent single-atom irons boosting molecular oxygen activation on MnO2

Adjacent single-atom irons boosting molecular oxygen activation on MnO2

Crystal Phase Transition Creates a Highly Active and Stable RuC_X Nanosurface for Hydrogen Evolution Reaction in Alkaline Media

Recent Advances in Alkaline Exchange Membrane Water Electrolysis and Electrode Manufacturing

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Tailoring Binding Abilities by Incorporating Oxophilic Transition Metals on 3D Nanostructured Ni Arrays for Accelerated Alkaline Hydrogen Evolution Reaction

Cited by 175 publications

References 87 publications

Adjacent single-atom irons boosting molecular oxygen activation on MnO2

Adjacent single-atom irons boosting molecular oxygen activation on MnO2

Crystal Phase Transition Creates a Highly Active and Stable RuCX Nanosurface for Hydrogen Evolution Reaction in Alkaline Media

Recent Advances in Alkaline Exchange Membrane Water Electrolysis and Electrode Manufacturing

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Crystal Phase Transition Creates a Highly Active and Stable RuC_X Nanosurface for Hydrogen Evolution Reaction in Alkaline Media