2016
DOI: 10.1039/c6gc02086k
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Powering the future: application of cellulose-based materials for supercapacitors

Abstract: In recent years, significant research has aimed at developing environmentally friendly supercapacitors by introducing sustainable natural polymerse. This review summarizes the advances on electrically active cellulose-based devices and the challenges of this exciting field of study.

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Cited by 221 publications
(99 citation statements)
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“…Meanwhile, new applications of wearable electronics have generated much interest for the flexible and compressible energy storage devices using cellulose‐based materials . Several recent review papers have covered the progress in material preparation, electrode fabrication, device configuration, and applications related to this topic . Due to the limited space, here we briefly introduce a work from Zhitomirsky and co‐workers, where they reported a super flexible and highly compressible electrode, of which polypyrrole (PPy) is in situ polymerized in a cellulose‐based current collector .…”
Section: Sustainable Application: Wood‐based Energy Storage Technologiesmentioning
confidence: 99%
“…Meanwhile, new applications of wearable electronics have generated much interest for the flexible and compressible energy storage devices using cellulose‐based materials . Several recent review papers have covered the progress in material preparation, electrode fabrication, device configuration, and applications related to this topic . Due to the limited space, here we briefly introduce a work from Zhitomirsky and co‐workers, where they reported a super flexible and highly compressible electrode, of which polypyrrole (PPy) is in situ polymerized in a cellulose‐based current collector .…”
Section: Sustainable Application: Wood‐based Energy Storage Technologiesmentioning
confidence: 99%
“…Additionally, the application of celloluse-based energy storage materials for batteries and supercapacitors has received widespread attention in recent years. [22] In particular, the use of cellulose, as a shaped material, in combination with an electrochemically active material (e.g., conductive polymers) to form electrode materials exhibits great potential for the development of high-performance energy storage. [23] Accordingly, a novel process that combines wood fractionation and in situ aniline polymerization was developed in the present study to produce cellulose network /PANI (CNP) composites with high conductivity.…”
Section: Sustainable Energy Storage Materialsmentioning
confidence: 99%
“…Consequently, it is necessary to explore some novel methods to enhance the in situ polymerization of aniline in the inner structure of matrix materials and enhance the conductivity of the composites. Additionally, the application of celloluse‐based energy storage materials for batteries and supercapacitors has received widespread attention in recent years . In particular, the use of cellulose, as a shaped material, in combination with an electrochemically active material (e.g., conductive polymers) to form electrode materials exhibits great potential for the development of high‐performance energy storage …”
Section: Introductionmentioning
confidence: 99%
“…Over the last years, the cellulose and its derivatives have been intensively employed as binders of carbon-based electrodes of lithium-ion batteries as well as separators or electrolyte membranes of these devices [35][36][37][38]. Recently, the natural cellulose was also introduced as a green binder of the EDLC electrode, compatible with all kinds of electrolytes employable in EDLCs (aqueous, organic and ionic liquid electrolytes) [39][40][41]. It is worth mentioning that EDLC electrode performance depends on the type of cellulose used in the capacitors.…”
Section: Introductionmentioning
confidence: 99%