Numerical simulation and experimental investigation of combinatorial electrodeposition of Ni‐Cu material library using modified Hull cell

Palli, Srinivas; Dey, Suhash Ranjan

doi:10.1002/pssa.201700084

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Electrochemical Deposition Model1

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Cited by 3 publications

(1 citation statement)

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“…So the electrochemical model considering the diffusion and electro migration of corrosive ions has been proposed. The electrode reaction mainly happened at the heterophase interface between electrodes and deionised water [16, 17]. The surface kinetics of electrode reaction is described by Bulter–Volmer equation, which is given by:

\begin{matrix} right leftthickmathspace.5em \\ i_{normalloc, normalm} & = i_{normalo, normalm} (\exp (\frac{α_{normala, normalm} F η_{m}}{R T}) - \exp (\frac{- α_{normalc, normalm} F η_{m}}{R T})) \\ η & = ϕ_{s} - ϕ_{l} - E_{e q} \end{matrix}

where i loc ,m denotes the local charge transfer current density for electrode reaction m , A/m 2 ; i o,m the exchange current density at bulk concentrations for each reaction m;

α_{a, m}

and

α_{c, m}

are anodic and cathode transfer coefficients of reaction m ,

η

the overpotential, V ; E eq the equilibrium potential for reaction m , V ; R the universal gas constant.…”

Section: Electrochemical Deposition Modelmentioning

confidence: 99%

Sediment deposition model of grading electrode in water cooling circuit of HVDC converter valve

Song

Cheng

Gao

et al. 2019

J. eng.

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\begin{matrix} right leftthickmathspace.5em \\ i_{normalloc, normalm} & = i_{normalo, normalm} (\exp (\frac{α_{normala, normalm} F η_{m}}{R T}) - \exp (\frac{- α_{normalc, normalm} F η_{m}}{R T})) \\ η & = ϕ_{s} - ϕ_{l} - E_{e q} \end{matrix}

where i loc ,m denotes the local charge transfer current density for electrode reaction m , A/m 2 ; i o,m the exchange current density at bulk concentrations for each reaction m;

α_{a, m}

and

α_{c, m}

are anodic and cathode transfer coefficients of reaction m ,

η

the overpotential, V ; E eq the equilibrium potential for reaction m , V ; R the universal gas constant.…”

Section: Electrochemical Deposition Modelmentioning

confidence: 99%

Sediment deposition model of grading electrode in water cooling circuit of HVDC converter valve

Song

Cheng

Gao

et al. 2019

J. eng.

View full text Add to dashboard Cite

One-step deposition of Ni Cu1− alloys with both composition gradient and morphology evolution by bipolar electrochemistry

Wang

et al. 2018

Journal of Electroanalytical Chemistry

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Screening alloy electrocatalysts by combining magnetron sputtering and scanning electrochemical microscopy

Xiao

et al. 2019

Philosophical Magazine Letters

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Numerical simulation and experimental investigation of combinatorial electrodeposition of Ni‐Cu material library using modified Hull cell

Cited by 3 publications

References 49 publications

Sediment deposition model of grading electrode in water cooling circuit of HVDC converter valve

Sediment deposition model of grading electrode in water cooling circuit of HVDC converter valve

One-step deposition of Ni Cu1− alloys with both composition gradient and morphology evolution by bipolar electrochemistry

Screening alloy electrocatalysts by combining magnetron sputtering and scanning electrochemical microscopy

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