Time-dependent ion selectivity in capacitive charging of porous electrodes

Zhao, Ruihua; Soestbergen, van M Michiel; Rijnaarts, H.H.M.; Wal, van de A; Bazant, Martin Z.; Biesheuvel, P.M.

doi:10.1016/j.jcis.2012.06.022

Cited by 224 publications

(191 citation statements)

References 68 publications

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“…The data in The effects of electrolyte composition on the surface potential were theoretically quantified in the new equations, while only the counterionic type was taken into account for mixed electrolyte solutions in the current studies [16].…”

Section: The Integration Of Equation (240) Ismentioning

confidence: 99%

Principles for the determination of the surface potential of charged particles in mixed electrolyte solutions

Liu

Tian²,

Ding³

et al. 2015

Proc. R. Soc. A.

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The Gouy-Chapman surface potential is a key parameter for many interfacial phenomena in physical, chemical and biological systems. Existing theoretical approaches allow the determination of the surface potential at a solid-liquid interface only in single electrolyte solutions; however, mixed electrolytes are often encountered in practical applications. The development of a theoretical approach for the determination of the surface potential in mixed electrolyte solutions is therefore a desirable goal. In this study, this important issue was resolved for the first time. Based on the analytical solutions of the nonlinear Poisson-Boltzmann equation in different mixed electrolyte solutions, corresponding mathematical relationships were developed between the surface potential and the mean ionic concentration in the diffuse layer. As the mean ionic concentration in the diffuse layer can be easily determined, the surface potential could be calculated using the newly derived equations. The effects of electrolyte composition on the surface potential were theoretically quantified in the new equations, while only counterionic type was taken into account for mixed electrolyte solutions in the current studies.

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Section: The Integration Of Equation (240) Ismentioning

confidence: 99%

Principles for the determination of the surface potential of charged particles in mixed electrolyte solutions

Liu

Tian²,

Ding³

et al. 2015

Proc. R. Soc. A.

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“…al. have investigated in detail the special effects occurring on capacitive charging of porous electrodes [19]. Measuring CV at different sweep rates provides different pieces of information.…”

Section: Charging At Constant Voltage Sweep Ratementioning

confidence: 99%

Novel Options and Limitations of Methanol‐Based Production and Storage for Mobile Applications

et al. 2014

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Methanol is considered a promising liquid fuel in context with electrochemical energy conversion and storage for mobile applications. It is shown here that a direct methanol fuel cell can be used for spontaneous charging and discharging a supercapacitor for intermediate storage of chemical energy. Thereby, protons and electrons of the methanol-derived hydrogen are stored separately in the electrical double layer of the supercapacitor electrode. The charging and discharging of this fuel cell-supercapacitor hybride device is investigated in experiments of spontaneous conditions (closed circuit) and also under externally enforced constant voltage sweep rate (cyclic voltammetry) and under constant current conditions. Alternatively, gas phase hydrogen is generated from methanol in an electroreforming process. When more efficient anode electrocatalysts become available this may become the method of choice for on-board and on demand hydrogen production in mobile applications.

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“…The main focus of interest included (i) regeneration speed and efficiency of the electrode material for ion storage capacity and (ii) increase of energy efficiency and ion selectivity [13][14][15][16][17][18]. The approach in these studies has been to measure the ion concentrations of the in and effluent water stream in order to determine the response of the entire system [5,9,13,[19][20][21][22]. In this work, we will use a chip-scale device, which allows for local (fluorescent) imaging of the ion concentration profiles in the flow channel to locally study ion transport.…”

Section: Introductionmentioning

confidence: 99%

Effect of pH waves on capacitive charging in microfluidic flow channels

Roelofs

Soestbergen

Odijk

et al. 2014

Ionics

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Novel energy-efficient desalination techniques, such as capacitive deionization (CDI), are a key element for the future of the fresh water supply, which is increasingly under stress due to the ever-growing world population and ongoing climate changes. CDI is a desalination technique where salt ions are removed from a flow channel by the application of an electrical potential difference across this channel and are stored in electrical double layers. The aim of this work is to visualize and explain the charging process of CDI using a new microfluidic approach. Namely, we implement the geometry of CDI on a chip and visualize the ion distributions in the channel using fluorescence microscopy. In contrast to normal CDI, our system was operated in the absence of flow, using non-porous electrodes. By using two pH-sensitive fluorescence dyes, we found the formation of pH waves across the channel, even though the system is operated at low potential differences in order to suppress Faradaic reactions, such as water splitting. From simulations of the transport process, we found that a small current density in the order of 0.1 A m −2 can trigger the formation of such pH waves. CDI generally benefits from large electrode areas relative to the channel cross section. However, this large area ratio will also increase the magnitude of these waves, which might lead to a reduction in desalination efficiency.

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Time-dependent ion selectivity in capacitive charging of porous electrodes

Cited by 224 publications

References 68 publications

Principles for the determination of the surface potential of charged particles in mixed electrolyte solutions

Principles for the determination of the surface potential of charged particles in mixed electrolyte solutions

Novel Options and Limitations of Methanol‐Based Production and Storage for Mobile Applications

Effect of pH waves on capacitive charging in microfluidic flow channels

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