Approaching High‐Performance Supercapacitors via Enhancing Pseudocapacitive Nickel Oxide‐Based Materials

Yi, Ting feng; Wei, Ting; Mei, Jie; Zhang, Wenchao; Zhu, Yan‐Rong; Liu, Yan Guo; Luo, Shaohua; Liu, Haiping; Lü, Yan; Guo, Zaiping

doi:10.1002/adsu.201900137

Cited by 62 publications

(17 citation statements)

References 164 publications

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“…Fig. 3a displays the CV curves of the Ni@NiO-35 A electrode at different scan rates, revealing the electrochemical redox properties of the 3D nano-folded Ni@NiO with a pair of redox peaks at the potential of 0–0.5 V. Specifically, a pair of redox peaks can be observed at the potential locations of 0.35 V and 0.17 V, which are mainly from the reversible redox reaction of NiO as follows: 29,30 NiO + OH − ↔ NiOOH + e − …”

Section: Resultsmentioning

confidence: 99%

Three-dimensional nano-folded transition-metal oxide electrode materials for high-performing electrochemical energy-storage devices

Chen

Feng

et al. 2022

J. Mater. Chem. C

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Section: Resultsmentioning

confidence: 99%

Three-dimensional nano-folded transition-metal oxide electrode materials for high-performing electrochemical energy-storage devices

Chen

Feng

et al. 2022

J. Mater. Chem. C

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“…Notably, the SC market remains on a rising path, with an anticipated value of USD 450 million in 2019 and a compound annual growth rate of 14.1% during the forecast period (2019–2024). [ 130 ] In ref. [131], they demonstrated in situ conversion of commercial polyimide (PI) films into porous graphene through laser direct writing for the fabrication of flexible supercapacitors with enhanced capacitive performance.…”

Section: Energy Storage Systemsmentioning

confidence: 99%

Advanced Photonic Processes for Photovoltaic, Energy Storage, and Environmental Systems

Maragkaki

Savva

Stratakis

2021

Advanced Sustainable Systems

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On account of the increasing energy demand, there is a need for worldwide exploration for new materials and methods in developing other energy sources and storage technologies. With the development of portable electronics, integrated graphene‐based systems have attracted increasing attention due to their environmental friendliness, mechanical flexibility, and lightweight features. In this review, the latest advances in laser‐directed design and fabrication of integrated graphene‐based devices, along with state‐of‐the‐art applications in energy storage and solar cell technologies are comprehensively summarized. Recent advances in this field give promising and clean solutions offering an answer to the increasing concern of global warming and the growing energy demand in developed nations. The perspectives and challenges in designing and improving future graphene integrated devices are also discussed.

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“…Despite making considerable progress, the low decomposition voltage of water (1.23 V) leads to a poor energy density of SCs (Yi et al, 2020). It is also reported that the cycle performance of SCs will deteriorate after adding redox additives to the aqueous electrolytes (Chodankar et al, 2016;Singh and Chandra, 2016).…”

Section: Redox Mediated Aqueous Electrolytesmentioning

confidence: 99%

“…Supercapacitors (SCs) are a new type of energy storage equipment filling the gap between secondary batteries and traditional capacitors (Hui et al, 2019;Poonam et al, 2019;Zhi-yu et al, 2019;Alipoori et al, 2020;Cheng et al, 2020;Iqbal et al, 2020;Li and Liang, 2020;Mohd Abdah et al, 2020;Panda et al, 2020;Yi et al, 2020). SCs are believed to be one of the most promising candidates due to their fast charging/discharging capability, long cycle life, high power density, and high safety (Zhang W. et al, 2017;Zhang et al, 2018;Afif et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

A Review of Redox Electrolytes for Supercapacitors

et al. 2020

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Supercapacitors (SCs) have attracted widespread attention due to their short charging/discharging time, long cycle life, and good temperature characteristics. Electrolytes have been considered as a key factor affecting the performance of SCs. They largely determine the energy density based on their decomposition voltage and the power density from their ionic conductivity. In recent years, redox electrolytes obtained a growing interest due to an additional redox activity from electrolytes, which offers an increased charge storage capacity in SCs. This article summarizes the latest progress in the research of redox electrolytes, and focuses on their properties, mechanisms, and applications based on different solvent types available. It also proposes potential solutions for how to effectively increase the energy density of the SCs while maintaining their high power and long life.

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Approaching High‐Performance Supercapacitors via Enhancing Pseudocapacitive Nickel Oxide‐Based Materials

Cited by 62 publications

References 164 publications

Three-dimensional nano-folded transition-metal oxide electrode materials for high-performing electrochemical energy-storage devices

Three-dimensional nano-folded transition-metal oxide electrode materials for high-performing electrochemical energy-storage devices

Advanced Photonic Processes for Photovoltaic, Energy Storage, and Environmental Systems

A Review of Redox Electrolytes for Supercapacitors

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