Electrochemical Characteristics and Microstructures of Activated Carbon Powder Supercapacitors for Energy Storage

Gonsalves, Tayara Correia; Silva, Franks Martins; Vieira, Ligia Silverio; Casini, Júlio César Serafim; Faria, Rubens Nunes de

doi:10.4028/www.scientific.net/msf.930.597

Cited by 3 publications

(3 citation statements)

References 10 publications

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“…In this section, we are going to apply our theory to realize voltage equalization for supercapacitor which is an efficient energy storage element with some significant advantages, like high power density, extremely high cycling capability, and being environment friendly as introduced by [11][12][13].…”

Section: Voltage Equalization For Supercapacitorsmentioning

confidence: 99%

Distributed Control of Multiple Supercapacitors via Static Feedback

Luo

Sun

Peng

2019

Mathematical Problems in Engineering

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During recent years, many important distributed control approaches have been proposed to realize the stabilization of networked system including static feedback, which has been proven to be an efficient control strategy. Based on its traditional design method, for first-and second-order networked dynamical systems, we propose another kind of nonlinear consensus controllers where the input of each agent can be written as a product of a nonlinear gain and a sum of nonlinear interaction functions so that all states will reach consensus at a value preset. By using integral Lyapunov functions, we can prove the stability of proposed control protocols. We also choose supercapacitors as simulation models to realize voltage equalization under our distributed control protocols.

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Section: Voltage Equalization For Supercapacitorsmentioning

confidence: 99%

Distributed Control of Multiple Supercapacitors via Static Feedback

Luo

Sun

Peng

2019

Mathematical Problems in Engineering

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“…It is well known that electrochemical supercapacitors are very sensitive to overpotential or operation at a potential superior to the maximum allowed by the electrolyte potential window. The supercapacitor specified or nominal potential indicate a safeguard limit to avoid electrolyte decomposition and the subsequent reactions with the separator and electrodes materials [1][2][3][4]. Increasing in the working temperature will further accelerate the reaction kinetics with faster degradation of the supercapacitor.…”

Section: Introductionmentioning

confidence: 99%

Influence of the Electrolyte Potential Window on the Electrical Characteristics of Supercapacitors Operating Elevated Temperatures

Silva

Mansani

Yoshikawa³

et al. 2020

MSF

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The equivalent series resistances (ESR) and specific capacitances (Cs) of supercapacitors carbon electrodes have been investigated using cyclic voltammetry and electrochemical impedance spectroscopy. Commercial activated carbon electrodes employing organic electrolyte have been tested using a potential window in the range of 2.7–3.8 V. Specific capacitances were calculated from cyclic voltammetry curves at room temperature employing various scan rates (30 and 100mVs-1). Internal series resistances of the supercapacitors were measured using the galvanostatic curves at room temperature and above (25 and 50°C). The ESR increase to 9.8 Ω at 25° and 2.7V to 78.8 Ω at with operating temperature raise and also with overpotential. A compositional and morphological evaluation of these electrodes showed a very homogeneous structure. It has been shown that the specific capacitance decreased considerably with scan rate, current density, electrochemical potential window and working temperature.

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“…internal resistance. Therefore, in order to reduce it, metal oxides are added in suitable proportion with activated carbon as an electrode material [2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Development of Statistical Model for Selection of Electrode Parameters in Manufacturing of Ultracapacitor

Godse¹,

Bhalerao

Khwaja

et al. 2020

KEM

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Ultracapacitor is a new electrical energy storage device which has high power density than conventional battery and capacitor. It offers high capacitance in small volume compared to conventional capacitors. While selecting ultracapacitors for various applications, parameters like specific resistance, internal capacitance, pulse current, energy density are required to be considered. Amongst these factors, specific capacitance of ultracapacitor depends mainly on parameters of electrode. The present paper is focused on modeling of ultracapacitor based on variations in some of the electrode parameters. The objective of present research work is to apply a statistical method to obtain an electrode material based model for prismatic type ultracapacitor. To have deep insight about the performance through modeling approach, the number of trials have been taken by doing the variations in the electrode materials of ultracapacitor and the quantity of the electrode material loaded on the current collector. The effect of both these variations is studied over the specific capacitance, which is taken as output parameter of model. Developed model is validated at selected values of input parameters.

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Electrochemical Characteristics and Microstructures of Activated Carbon Powder Supercapacitors for Energy Storage

Cited by 3 publications

References 10 publications

Distributed Control of Multiple Supercapacitors via Static Feedback

Distributed Control of Multiple Supercapacitors via Static Feedback

Influence of the Electrolyte Potential Window on the Electrical Characteristics of Supercapacitors Operating Elevated Temperatures

Development of Statistical Model for Selection of Electrode Parameters in Manufacturing of Ultracapacitor

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