2018
DOI: 10.1021/acsaem.8b00942
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Tailoring Highly Flexible Hybrid Supercapacitors Developed by Graphite Nanoplatelets-Based Film: Toward Integrated Wearable Energy Platform Building Blocks

Abstract: We report a new type of highly flexible hybrid supercapacitors (SCs) developed by graphite nanoplatelets (GNPs)based films with a practicable fabrication method for mass production. In this report, GNP/carbon black films are featured with excellent freestanding and conductivity characteristics, thus capable of working as both active and interconnection layers (∼20 μm) in our integrated GNP-SCs. The hybrid GNP-SCs are constructed by two distinct assembling methods, series and parallel connection, which are syne… Show more

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Cited by 12 publications
(6 citation statements)
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“…To mitigate the long-standing high manufacturing cost issue, TADF-WOLEDs have a pivotal role in commercialization, especially in the application of display and lighting fields. Therefore, simplifying device structure [117,184] and developing solution-processed technology [185][186][187][188][189] are two major methodologies for the cost reduction. From the industrial process flow optimization aspect, the multi-size multi-mode glass (MMG) process could play an important role to minimize the panel costs to some extent.…”
Section: Discussionmentioning
confidence: 99%
“…To mitigate the long-standing high manufacturing cost issue, TADF-WOLEDs have a pivotal role in commercialization, especially in the application of display and lighting fields. Therefore, simplifying device structure [117,184] and developing solution-processed technology [185][186][187][188][189] are two major methodologies for the cost reduction. From the industrial process flow optimization aspect, the multi-size multi-mode glass (MMG) process could play an important role to minimize the panel costs to some extent.…”
Section: Discussionmentioning
confidence: 99%
“…The device integration shows the promising applications for wearable systems and robotics as the SCs connected in series display impressive results. [ 68 ] Recently, we also presented the first demonstration of the SCs moving the motors of a 3D‐printed hand to grasp a soft object ( Figure d). In this case, the SCs were charged using the energy generated by solar cells on top.…”
Section: Energy‐storage Technologiesmentioning
confidence: 99%
“…Unfortunately, the agglomeration of Au nanocrystals results in the decrease of the catalytic activities. To suppress aggregation of Au nanocrystals, many works focused on adding suitable stabilizers to improve the stabilization of Au nanocrystals. , However, although the introduction of the stabilizers inhibits the agglomeration of Au nanocrystals, the stabilizers instead reduce or even deactivate the catalytic activity of Au nanocrystals because the surface sites of Au nanocrystals are occupied by the stabilizers. Recently, extensive efforts have been devoted to researching the possibility that Au nanocrystals are uniformly covered on solid supports (such as polymers, carbonaceous materials, semiconductor materials, or metal oxides). Among those materials, 3D Fe 3 O 4 magnetic microcrystals are considered the most promising supports to disperse and stabilize Au nanocrystals, not only because Fe 3 O 4 magnetic microcrystals exhibit good magnetic responsiveness to an external magnetic field, but also because 3D Fe 3 O 4 microcrystals can provide more binding sites to combine with Au nanocrystals compared with 0D/1D/2D Fe 3 O 4 nanocrystals.…”
Section: Introductionmentioning
confidence: 97%