Celine Nieuwland scite author profile

Herein, the effect of the alkali cation (Li + ,Na + ,K + , and Cs + )inalkaline electrolytes with and without Fe impurities is investigated for enhancing the activity of nickel oxyhydroxide (NiOOH) for the oxygen evolution reaction (OER). Cyclic voltammograms showthat Fe impurities have asignificant catalytic effect on OER activity;h owever,b oth under purified and unpurified conditions,the trend in OER activity is Cs + > Na + > K + > Li + ,suggesting an intrinsic cation effect of the OER activity on Fe-free Ni oxyhydroxide.I nsitu surface enhanced Raman spectroscopy( SERS), shows this cation dependence is related to the formation of superoxo OER intermediate (NiOO À ). The electrochemically active surface area, evaluated by electrochemical impedance spectroscopy (EIS), is not influenced significantly by the cation. We postulate that the cations interact with the NiÀOO À species leading to the formation of NiOO À ÀM + species that is stabilized better by bigger cations (Cs + ). This species would then act as the precursor to O 2 evolution, explaining the higher activity.Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under: https://doi.

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Enhancement of Oxygen Evolution Activity of Nickel Oxyhydroxide by Electrolyte Alkali Cations

Garcia

Touzalin

Nieuwland

et al. 2019

Angewandte Chemie

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Understanding alkali metal cation affinities of multi-layer guanine quadruplex DNA

Nieuwland

Zaccaria

Guerra

2020

Phys. Chem. Chem. Phys.

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Front Cover: How the Chalcogen Atom Size Dictates the Hydrogen‐Bond Donor Capability of Carboxamides, Thioamides, and Selenoamides (Chem. Eur. J. 31/2022)

Nieuwland

Guerra

2022

Chemistry A European J

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Thioamides and selenoamides are better hydrogen‐bond donors than carboxamides because their amino groups are more positively charged. Quantum chemical analyses reveal that this counterintuitive phenomenon, which cannot be explained by the electronegativity, originates from the larger electronic density flow from the nitrogen lone pair of the NH2 group towards the lower‐lying π* orbital on the C=S or C=Se bond. This difference can be traced back to the effective steric size of the chalcogen atoms. More information can be found in the Research Article by C. Nieuwland and C. Fonseca Guerra (DOI: 10.1002/chem.202200755).

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Communicating through hydrogen bonds

Nieuwland

Guerra

2021

Chem

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