Can graphene be used for Interdisciplinary Applications of energy storage and conversion?
Based on this, this review will discuss the novel synthesis of graphene for interdisciplinary applications of energy storage and conversion, which is a promising direction in the research for novel applications in photoelectrochemical cells, photo-assisted batteries, piezoelectric nanogenerators, photothermal and photomechanical devices, etc.
What are the applications of graphene?
Currently, applications of graphene focus mainly on the storage and conversion of electric and light energy to provide alternative energy sources to replace fossil fuels [5, 6] with typical representatives being supercapacitors and lithium batteries [7, 8, 9, 10], as well as photocatalysis applications to provide eco-friendly devices [11, 12].
Are graphene composites suitable for energy storage applications?
As capacity requirements in energy storage applications increase, graphene composites such as the embedment/encapsulation of nanostructured materials in graphene have been developed to meet these requirements.
Are graphene nanomaterials a good energy storage device?
Supercapacitors with graphene nanomaterials have been used as the most efficient energy storage devices . Moreover, Li-ion batteries employing graphene have been researched for their good energy storage capabilities [10, 11]. In addition, graphene-derived materials have also been explored for their use in fuel cells .
How to synthesis graphene?
The synthesis of graphene can be sorted into two categories involving the updated bottom-top and top-bottom strategies. Here, the most convenient methods are through mechanical exfoliation by using ball milling in which the related milling energy theory can increase yields significantly.
Can graphene reduce reliance on traditional energy resources?
Here, graphene and its derivatives are promising in advanced industrial applications and in reducing reliance on traditional energy resources due to hexagonally arranged single sp 2 carbon atom layers, high intrinsic carrier mobility, ultrahigh specific surface areas, high optical transmittances, and exceptional mechanical properties (Fig. 1).
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Discussion & Message Board
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