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Electrochemical energy storage (EES) devices have attracted immense research interests as an effective technology for utilizing renewable energy. 1D carbon‐based nanostructures are recognized as highly promising materials for EES application, combining the advantages of functional 1D nanostructures and carbon nanomaterials. Here, the recent advances of 1D carbon‐based nanomaterials for electrochemical...
In article number 1700639, Liang He, Liqiang Mai and co‐workers, develop a novel microfabrication process to obtain an alternating stacked MoS2@graphene/carbon and carbon nanotubes/carbon microelectrodes‐based microsupercapacitor. The energy and power performance of the fabricated microsupercapacitor are enhanced by the unique alternating stacked structures. This carbon‐MEMS‐based microfabrication...
A novel process to fabricate a carbon‐microelectromechanical‐system‐based alternating stacked MoS2@rGO–carbon‐nanotube (CNT) micro‐supercapacitor (MSC) is reported. The MSC is fabricated by successively repeated spin‐coating of MoS2@rGO/photoresist and CNT/photoresist composites twice, followed by photoetching, developing, and pyrolysis. MoS2@rGO and CNTs are embedded in the carbon microelectrodes,...
A novel microfabrication process based on optimized photolithography combined with pyrolysis-reduction is proposed to fabricate interdigital porous carbon/tin quantum dots (C/Sn QDs) microelectrodes. C/Sn QDs active microelectrodes are also employed as current collectors of a micro-supercapacitor (MSC). A uniform dispersion of Sn QDs (diameter of ∼3 nm) in the carbon matrix is achieved using our facile...
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