Xiaoyu Zhao scite author profile

Adsorbed atomic H (H*) facilitates indirect pathways playing a major role in the electrochemical removal of various priority pollutants. It is crucial to identify the atomic sites responsible for the provision of H*. Herein, through a systematic study of the distribution of H* on Pd nanocatalysts with different sizes and, more importantly, deliberately controlled relative abundance of surface defects, we uncovered the central role of defects in the provision of H*. Specifically, the H* generated on Pd in an electrochemical process increased markedly upon introducing defect sites by changing the morphology to ultrathin polycrystalline Pd nanowires (NWs), while dramatically reducing upon decreasing the number of surface defects through an annealing treatment. Benefiting from a proportion of H* up to 40% of the total H* species, the Pd NWs showed an electrochemical active surface area normalized rate constant of 13.8 ± 0.8 h m, which is 8-9 times higher than its Pd/C counterparts. The pivotal role of defect sites for the generation of H* was further verified by blocking such sites with Rh and Pt atoms, while theoretical calculation also confirms that the adsorption energy of H* on these sites is much higher than that on the Pd{111} facet.

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Energy conversion technologies towards self-powered electrochemical energy storage systems: the state of the art and perspectives

Wei

Cui

et al. 2017

J. Mater. Chem. A

124

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Electrode materials for capacitive deionization: A review

Zhao

Wei

Zhao

et al. 2020

Journal of Electroanalytical Chemistry

120

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RbSbSO₄Cl₂: an excellent sulfate nonlinear optical material generated due to the synergistic effect of three asymmetric chromophores

Deng

Zhao

et al. 2019

J. Mater. Chem. C

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Review on the electrochemical extraction of lithium from seawater/brine

Zhao

Yang

Wang

et al. 2019

Journal of Electroanalytical Chemistry

136

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Xiaoyu Zhao

Defect Sites in Ultrathin Pd Nanowires Facilitate the Highly Efficient Electrochemical Hydrodechlorination of Pollutants by H*_ads

Energy conversion technologies towards self-powered electrochemical energy storage systems: the state of the art and perspectives

Electrode materials for capacitive deionization: A review

RbSbSO₄Cl₂: an excellent sulfate nonlinear optical material generated due to the synergistic effect of three asymmetric chromophores

Review on the electrochemical extraction of lithium from seawater/brine

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Xiaoyu Zhao

Defect Sites in Ultrathin Pd Nanowires Facilitate the Highly Efficient Electrochemical Hydrodechlorination of Pollutants by H*ads

Energy conversion technologies towards self-powered electrochemical energy storage systems: the state of the art and perspectives

Electrode materials for capacitive deionization: A review

RbSbSO4Cl2: an excellent sulfate nonlinear optical material generated due to the synergistic effect of three asymmetric chromophores

Review on the electrochemical extraction of lithium from seawater/brine

Contact Info

Product

Resources

About

Defect Sites in Ultrathin Pd Nanowires Facilitate the Highly Efficient Electrochemical Hydrodechlorination of Pollutants by H*_ads

RbSbSO₄Cl₂: an excellent sulfate nonlinear optical material generated due to the synergistic effect of three asymmetric chromophores