How cations affect the electric double layer and the rates and selectivity of electrocatalytic processes

Waegele, Matthias M.; Gunathunge, Charuni M.; Li, Jingyi; Li, Xiang

doi:10.1063/1.5124878

Cited by 223 publications

(306 citation statements)

References 158 publications

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“…We can also exclude a stabilizing interaction of NiOO − with Cs + because we did not observe an evolution of a shoulder peak between 930–950 cm −1 in CsOH (Supporting Information, Figures S12 and S13) . To probe the possibility of electric field effect due to Cs + adsorption, we measured OER in tetramethylammonium hydroxide (TMAOH) solution. TMA + is larger than Cs + and should induce a larger electric field effect.…”

Section: Figurementioning

confidence: 99%

Deciphering Iron‐Dependent Activity in Oxygen Evolution Catalyzed by Nickel–Iron Layered Double Hydroxide

2020

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Nickel iron oxyhydroxide is the benchmark catalyst for the oxygen evolution reaction (OER) in alkaline medium. Whereas the presence of Fe ions is essential to the high activity, the functions of Fe are currently under debate. Using oxygen isotope labeling and operando Raman spectroscopic experiments, we obtain turnover frequencies (TOFs) of both Ni and Fe sites for a series of Ni and NiFe layered double hydroxides (LDHs), which are structurally defined samples of the corresponding oxyhydroxides. The Fe sites have TOFs 20–200 times higher than the Ni sites such that at an Fe content of 4.7 % and above the Fe sites dominate the catalysis. Higher Fe contents lead to larger structural disorder of the NiOOH host. A volcano‐type correlation was found between the TOFs of Fe sites and the structural disorder of NiOOH. Our work elucidates the origin of the Fe‐dependent activity of NiFe LDH, and suggests structural ordering as a strategy to improve OER catalysts.

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Section: Figurementioning

confidence: 99%

Deciphering Iron‐Dependent Activity in Oxygen Evolution Catalyzed by Nickel–Iron Layered Double Hydroxide

2020

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“…[7,8] EDLs are a relevant subject in catalysis too. While their role in electrocatalysis is quite obvious, [9][10][11][12][13] there also exist EDL-related phenomena that can manifest in a catalytic process even without application of extraneous current-like electrocapillarity [14] and high viscosity of the layer. [15] Discussion of EDLs in scientific literature almost exclusively focuses on their formation via interaction of the solid with the background electrolyte by adsorption of ions from the latter.…”

Section: Introductionmentioning

confidence: 99%

Unidimensional Approximation of the Diffuse Electrical Layer in the Inner Volume of Solid Electrolyte Grains in the Absence of Background Ions

Tarabanko

Тaran

2020

ChemPhysChem

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In this paper we continue working on our theory of electrical double layers resulting exclusively from dissociation of a solid electrolyte, which we previously proposed as a medium for catalytic interaction between solid cellulose and solid acid catalysts of hydrolysis. Two theoretical unidimensional models of the inner grain volume are considered: an infinitely long cylindrical pore, and a gel electrolyte near a grain outer surface. Despite the model simplicity, the predictions for the cylindrical pore case are in semi‐quantitative agreement with literature data on electroosmotic experiments, adequately explaining high proton selectivity of sulfonic membranes, and decline of such selectivity at high background acid concentration. The gel model predicts less concentrated diffuse layer in comparison to electrolytes with impenetrable skeleton (e. g., sulfonated carbons). This suggests limited suitability of gel electrolytes as catalysts if a substrate cannot diffuse into the gel bulk and the reaction is thereby spatially limited to the near‐surface region, for example if a substrate is solid like aforementioned cellulose.

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“…The latest developments in therapeutic drug administration has spawned marked interest in the use of nanoparticle carriers such as, liposomes, polymeric micelles, and microspheres. Protocols using both chemical and physical methods have been shown effective in creating such nano-formulations, utilized in drug delivery systems [21,22]. It became apparent to us that a reduced particle (lipid globule) size distribution might be appropriate for use in our cell culture based assay system.…”

Section: Resultsmentioning

confidence: 99%

Effect of a Δ9-tetrahydrocannabinol (THC)/cannabidiol (CBD) formulation on cell monolayer viability and mitochondria integrity: Significance of the drug carrier/delivery system

Lipson¹,

Rodriguez²,

Lipson³

et al. 2020

Arch Nurs Pract Care

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How cations affect the electric double layer and the rates and selectivity of electrocatalytic processes

Cited by 223 publications

References 158 publications

Deciphering Iron‐Dependent Activity in Oxygen Evolution Catalyzed by Nickel–Iron Layered Double Hydroxide

Deciphering Iron‐Dependent Activity in Oxygen Evolution Catalyzed by Nickel–Iron Layered Double Hydroxide

Unidimensional Approximation of the Diffuse Electrical Layer in the Inner Volume of Solid Electrolyte Grains in the Absence of Background Ions

Effect of a Δ9-tetrahydrocannabinol (THC)/cannabidiol (CBD) formulation on cell monolayer viability and mitochondria integrity: Significance of the drug carrier/delivery system

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