2019
DOI: 10.1002/aenm.201900078
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Cascade‐Type Prelithiation Approach for Li‐Ion Capacitors

Abstract: Funding bodies included and grant numbers accurate Title of article OK All figures included Equations correct (symbols and sub/superscripts) Corrections should be made directly in the PDF file using the PDF annotation tools. If you have questions about this, please contact the editorial office. The corrected PDF and any accompanying files should be uploaded to the journal's Editorial Manager site.

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Cited by 40 publications
(28 citation statements)
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“…Although the prelithiation/presodiation issues could be settled by the cathode additives, the delithiated/desodiated products are no longer electrochemically active and still remained in the cathode part, greatly reducing the special energy densities of EES systems in the practical application. [140][141][142][143] Thus, a unique approach based on sacrificial organic salts has been explored. [144,145] Notably, the sacrificial organic salts possess the merits of abundant resources, low cost, and environmental friendliness, which is beneficial for promoting commercialized application.…”
Section: (12 Of 23)mentioning
confidence: 99%
“…Although the prelithiation/presodiation issues could be settled by the cathode additives, the delithiated/desodiated products are no longer electrochemically active and still remained in the cathode part, greatly reducing the special energy densities of EES systems in the practical application. [140][141][142][143] Thus, a unique approach based on sacrificial organic salts has been explored. [144,145] Notably, the sacrificial organic salts possess the merits of abundant resources, low cost, and environmental friendliness, which is beneficial for promoting commercialized application.…”
Section: (12 Of 23)mentioning
confidence: 99%
“…But the power character and cycling lifespan are unacceptable [16,17]. There are also hybrid energy storage devices, for example, lithium-ion hybrid capacitors (LICs), where one electrode operates on Faradaic reactions, and the other uses electrical double layer (EDL) storage [18][19][20]. For example, during charge, the positive electrode incorporates anions adsorption and the negative electrode takes in cations in reductive ion insertion; during discharge, the ion migration direction is reversed.…”
Section: Introductionmentioning
confidence: 99%
“…[ 44 ] Many approaches have been reported to improve the initial coulombic efficiency, such as prelithiation and artificial SEI. [ 45,46 ] The relatively low operation potential (≈80% capacity contribution below 1 V) together with high Li‐storage capacity (>600 mAh g −1 ) we obtained for h‐V 2 O 3 @C will increase the output voltage and the energy density of the full LIC device (to be discussed in the next section).…”
Section: Resultsmentioning
confidence: 93%