Muhammad Imran Shakir scite author profile

The increasing demand for energy and growing concerns for environmental issues are promoting the development of organic electrode materials. Among these, conjugated carbonyl compounds (CCCs) represent one of the most attractive and promising candidates for sustainable and eco-benign energy storage devices in the coming future. However, most of the current compounds suffer from dissolution in organic electrolytes and low electronic conductivity, which result in severe capacity decay and poor rate performance. Recently, researchers have achieved considerable progress by introducing electroactive carbonyl compounds into carbon nanomaterials. This perspective provides an overview of the up-to-date development of these nanocomposites in metal ion batteries (lithium-ion batteries or sodium-ion batteries) and supercapacitors (SCs), including the synthesis, performance improvement and applications. We mainly focus on carbon nanotubes (CNTs), graphene and mesoporous carbon (MC) as carbon nanomaterials because of their high specific surface area, good conductivity, electrochemical stability and favourable interaction with conjugated carbonyl compounds. This strategy opens up new possibilities to realize cost-effective, sustainable and versatile energy storage devices.

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Promising electrochemical study of titanate based anodes in direct carbon fuel cell using walnut and almond shells biochar fuel

Ali

Raza

Shakir

et al. 2019

Journal of Power Sources

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Effect of sintering temperature on properties of LiNiCuZn-Oxide: a potential anode for solid oxide fuel cell

Akbar

Alvi

Shakir

et al. 2019

Mater. Res. Express

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High Current Density Vertical Tunneling Transistors from Graphene/Highly-Doped Silicon Heterostructures

Liu¹,

Sheng²,

Wu³

et al. 2015

Preprint

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