2016
DOI: 10.1016/j.jelechem.2016.03.002
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Electroactivity of nanoporous platinum depending on the porosity and potential for various electrode reactions

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Cited by 5 publications
(2 citation statements)
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“…Advances in the fabrication of nanoporous electrodes with uniform pore structures have led to the application of nanoporous electrodes in electrochemical reactions, such as catalysis and sensors. Research on novel electrochemical phenomena induced by the structure of nanoporous electrodes has been actively conducted in recent years. Nanoporous materials are also attracting attention as a way to easily impart selectivity to electrodes, and selectivity studies utilizing the nanoconfined structure of nanoporous electrodes have been mainly characterized by the reaction rate, size, and charge of the reactants. In other words, the slower the reaction rate, the smaller the size of the reactant species, and the deeper the reactant species that can enter the nanopore, the more selectively the electrochemical signal can be amplified. In addition, a study has been reported on imparting selectivity by introducing reactants with opposite charges to the electrodes into the nanopores by using the electric double-layer overlapping phenomenon in the nanopore electrodes. , …”
Section: Introductionmentioning
confidence: 99%
“…Advances in the fabrication of nanoporous electrodes with uniform pore structures have led to the application of nanoporous electrodes in electrochemical reactions, such as catalysis and sensors. Research on novel electrochemical phenomena induced by the structure of nanoporous electrodes has been actively conducted in recent years. Nanoporous materials are also attracting attention as a way to easily impart selectivity to electrodes, and selectivity studies utilizing the nanoconfined structure of nanoporous electrodes have been mainly characterized by the reaction rate, size, and charge of the reactants. In other words, the slower the reaction rate, the smaller the size of the reactant species, and the deeper the reactant species that can enter the nanopore, the more selectively the electrochemical signal can be amplified. In addition, a study has been reported on imparting selectivity by introducing reactants with opposite charges to the electrodes into the nanopores by using the electric double-layer overlapping phenomenon in the nanopore electrodes. , …”
Section: Introductionmentioning
confidence: 99%
“…Therefore, electrochemical reactions at nanoporous electrodes can be selectively enhanced or diminished by the properties of the redox molecules, such as charge, 16 molecular size, 17,18 and kinetics. 19,20 This selective change in the electrochemical signals has been applied to catalysts, electrochemical sensors, and biosensors. 9,21 In addition to redox molecules, the transport of ions into the nanopores is also affected by the steric hindrance of the nanoporous structure.…”
mentioning
confidence: 99%