SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4307747631> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W4307747631 endingPage "2106116" @default.
W4307747631 startingPage "2106116" @default.
W4307747631 abstract "Developing fast-charging, high-temperature, and sustainable batteries is critical for the large-scale deployment of energy storage devices in electric vehicles, grid-scale electrical energy storage, and high temperature regions. Here, a transition metal-free all-organic rechargeable potassium battery (RPB) based on abundant and sustainable organic electrode materials (OEMs) and potassium resources for fast-charging and high-temperature applications is demonstrated. N-doped graphene and a 2.8 m potassium hexafluorophosphate (KPF6 ) in diethylene glycol dimethyl ether (DEGDME) electrolyte are employed to mitigate the dissolution of OEMs, enhance the electrode conductivity, accommodate large volume change, and form stable solid electrolyte interphase in the all-organic RPB. At room temperature, the RPB delivers a high specific capacity of 188.1 mAh g-1 at 50 mA g-1 and superior cycle life of 6000 and 50000 cycles at 1 and 5 A g-1 , respectively, demonstrating an ultra-stable and fast-charging all-organic battery. The impressive performance at room temperature is extended to high temperatures, where the high-mass-loading (6.5 mg cm-2 ) all-organic RPB exhibits high-rate capability up to 2 A g-1 and a long lifetime of 500 cycles at 70-100 °C, demonstrating a superb fast-charging and high-temperature battery. The cell configuration demonstrated in this work shows great promise for practical applications of sustainable batteries at extreme conditions." @default.
W4307747631 created "2022-11-05" @default.
W4307747631 creator A5007353066 @default.
W4307747631 creator A5010418552 @default.
W4307747631 creator A5011908287 @default.
W4307747631 creator A5020386259 @default.
W4307747631 creator A5036460369 @default.
W4307747631 creator A5070888512 @default.
W4307747631 creator A5072147506 @default.
W4307747631 creator A5089621919 @default.
W4307747631 date "2022-10-31" @default.
W4307747631 modified "2023-09-29" @default.
W4307747631 title "A Fast‐Charging and High‐Temperature All‐Organic Rechargeable Potassium Battery" @default.
W4307747631 cites W1946678288 @default.
W4307747631 cites W2010764629 @default.
W4307747631 cites W2057022187 @default.
W4307747631 cites W2061977671 @default.
W4307747631 cites W2064325453 @default.
W4307747631 cites W2078792724 @default.
W4307747631 cites W2091875228 @default.
W4307747631 cites W2118609172 @default.
W4307747631 cites W2323719026 @default.
W4307747631 cites W2406154527 @default.
W4307747631 cites W2518384237 @default.
W4307747631 cites W2528105104 @default.
W4307747631 cites W2542904728 @default.
W4307747631 cites W2559817462 @default.
W4307747631 cites W2566450094 @default.
W4307747631 cites W2581958731 @default.
W4307747631 cites W2618459326 @default.
W4307747631 cites W2736697269 @default.
W4307747631 cites W2754984782 @default.
W4307747631 cites W2789416411 @default.
W4307747631 cites W2790076382 @default.
W4307747631 cites W2800921688 @default.
W4307747631 cites W2810159472 @default.
W4307747631 cites W2810843556 @default.
W4307747631 cites W2888372254 @default.
W4307747631 cites W2889736937 @default.
W4307747631 cites W2895970620 @default.
W4307747631 cites W2898431555 @default.
W4307747631 cites W2902574724 @default.
W4307747631 cites W2938487032 @default.
W4307747631 cites W2943846926 @default.
W4307747631 cites W2947130325 @default.
W4307747631 cites W2955422908 @default.
W4307747631 cites W2965463769 @default.
W4307747631 cites W2968508083 @default.
W4307747631 cites W2979805427 @default.
W4307747631 cites W2981809547 @default.
W4307747631 cites W2996877300 @default.
W4307747631 cites W2998849754 @default.
W4307747631 cites W3003658253 @default.
W4307747631 cites W3005465666 @default.
W4307747631 cites W3008974656 @default.
W4307747631 cites W3012914112 @default.
W4307747631 cites W3025258818 @default.
W4307747631 cites W3036334758 @default.
W4307747631 cites W3083044856 @default.
W4307747631 cites W3083206460 @default.
W4307747631 cites W3083612742 @default.
W4307747631 cites W3083864783 @default.
W4307747631 cites W3087874681 @default.
W4307747631 cites W3090453333 @default.
W4307747631 cites W3092480948 @default.
W4307747631 cites W3094168232 @default.
W4307747631 cites W3104071177 @default.
W4307747631 cites W3107116091 @default.
W4307747631 cites W3111731983 @default.
W4307747631 cites W3114132655 @default.
W4307747631 cites W3120792356 @default.
W4307747631 cites W3122575192 @default.
W4307747631 cites W3122865251 @default.
W4307747631 cites W3125170897 @default.
W4307747631 cites W3128439240 @default.
W4307747631 cites W3130279692 @default.
W4307747631 cites W3134786422 @default.
W4307747631 cites W3135554563 @default.
W4307747631 cites W3135678752 @default.
W4307747631 cites W3136600947 @default.
W4307747631 cites W3136931418 @default.
W4307747631 cites W3162318986 @default.
W4307747631 cites W3186293625 @default.
W4307747631 cites W3193044426 @default.
W4307747631 cites W3193446014 @default.
W4307747631 cites W3200455879 @default.
W4307747631 cites W3206282068 @default.
W4307747631 cites W3207130442 @default.
W4307747631 cites W3211714360 @default.
W4307747631 cites W4200380554 @default.
W4307747631 cites W4210277013 @default.
W4307747631 cites W4210533767 @default.
W4307747631 cites W4307747631 @default.
W4307747631 doi "https://doi.org/10.1002/advs.202106116" @default.
W4307747631 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36316243" @default.
W4307747631 hasPublicationYear "2022" @default.
W4307747631 type Work @default.
W4307747631 citedByCount "5" @default.