SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4310596284> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W4310596284 endingPage "2209290" @default.
W4310596284 startingPage "2209290" @default.
W4310596284 abstract "Increasing pursuit of next-generation wearable electronics has put forward the demand of reliable energy devices with high flexibility, durability, and enhanced electrochemical performances. Flexible aqueous zinc-air batteries (FAZABs) have attracted great interests owing to the high energy density, safety, and environmental benignity, for which quasi-solid-state gel polymer electrolytes (QSGPEs) are state-of-the-art electrolytes with high ionic conductivity, flexibility, and resistance to leakage problems of traditional liquid electrolytes. Compared to commonly used PVA-KOH electrolyte with poor electrolyte retention capability and cycling stability, a new type of sulfonate functionalized nanocomposite QSGPE is applied in FAZABs with high ionic conductivity, strong alkaline tolerance, and high zinc anode stability. Notably, the existence of (1) strong anionic sulfonate groups of QSGPEs, contributing to the exposure of preferred Zn (002) plane that is more resistant to zinc dendrite formation, and (2) nano-attapulgite electrolyte additives, beneficial for the enhancement of ionic conductivity, electrolyte uptake, and retention capability, endows a ultralong cycling life of 450 h for the fabricated FAZAB. Furthermore, flexible energy belts and knittable energy wires fabricated with a series/parallel unit of several FAZABs can be used to power various wearable electronics." @default.
W4310596284 created "2022-12-12" @default.
W4310596284 creator A5011085153 @default.
W4310596284 creator A5036668774 @default.
W4310596284 creator A5040389793 @default.
W4310596284 creator A5051080686 @default.
W4310596284 creator A5058442779 @default.
W4310596284 creator A5069789783 @default.
W4310596284 creator A5085352453 @default.
W4310596284 creator A5090219547 @default.
W4310596284 date "2022-12-16" @default.
W4310596284 modified "2023-10-02" @default.
W4310596284 title "Functionalized Nanocomposite Gel Polymer Electrolyte with Strong Alkaline‐Tolerance and High Zinc Anode Stability for Ultralong‐Life Flexible Zinc–Air Batteries" @default.
W4310596284 cites W1719357300 @default.
W4310596284 cites W1862790653 @default.
W4310596284 cites W1971006603 @default.
W4310596284 cites W1978440739 @default.
W4310596284 cites W1987262360 @default.
W4310596284 cites W2009742981 @default.
W4310596284 cites W2016867352 @default.
W4310596284 cites W2033537560 @default.
W4310596284 cites W2036505572 @default.
W4310596284 cites W2048397815 @default.
W4310596284 cites W2078184681 @default.
W4310596284 cites W2102365354 @default.
W4310596284 cites W2401487061 @default.
W4310596284 cites W2584330831 @default.
W4310596284 cites W2622042387 @default.
W4310596284 cites W264814889 @default.
W4310596284 cites W2796939163 @default.
W4310596284 cites W2810845233 @default.
W4310596284 cites W2884585995 @default.
W4310596284 cites W2887626811 @default.
W4310596284 cites W2890237283 @default.
W4310596284 cites W2892297815 @default.
W4310596284 cites W2900932730 @default.
W4310596284 cites W2911587293 @default.
W4310596284 cites W2914471118 @default.
W4310596284 cites W2962932562 @default.
W4310596284 cites W2981230069 @default.
W4310596284 cites W2982170330 @default.
W4310596284 cites W2996651205 @default.
W4310596284 cites W2998040699 @default.
W4310596284 cites W3000006046 @default.
W4310596284 cites W3002390382 @default.
W4310596284 cites W3007695496 @default.
W4310596284 cites W3009112059 @default.
W4310596284 cites W3010707894 @default.
W4310596284 cites W3016962793 @default.
W4310596284 cites W3017110091 @default.
W4310596284 cites W3024562652 @default.
W4310596284 cites W3038562805 @default.
W4310596284 cites W3039202373 @default.
W4310596284 cites W3041134839 @default.
W4310596284 cites W3041507362 @default.
W4310596284 cites W3047772712 @default.
W4310596284 cites W3048895693 @default.
W4310596284 cites W3061543947 @default.
W4310596284 cites W3084407007 @default.
W4310596284 cites W3087717148 @default.
W4310596284 cites W3092075541 @default.
W4310596284 cites W3092898083 @default.
W4310596284 cites W3093100322 @default.
W4310596284 cites W3093743215 @default.
W4310596284 cites W3096734314 @default.
W4310596284 cites W3097480278 @default.
W4310596284 cites W3100360469 @default.
W4310596284 cites W3101681656 @default.
W4310596284 cites W3113287592 @default.
W4310596284 cites W3113463851 @default.
W4310596284 cites W3122681498 @default.
W4310596284 cites W3132934216 @default.
W4310596284 cites W3149516099 @default.
W4310596284 cites W3153975729 @default.
W4310596284 cites W3155005519 @default.
W4310596284 cites W3164827486 @default.
W4310596284 cites W3168678060 @default.
W4310596284 cites W3195316852 @default.
W4310596284 cites W3203125519 @default.
W4310596284 cites W4205374491 @default.
W4310596284 cites W4285124686 @default.
W4310596284 cites W4285299771 @default.
W4310596284 cites W4294015751 @default.
W4310596284 cites W4308338036 @default.
W4310596284 doi "https://doi.org/10.1002/adma.202209290" @default.
W4310596284 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36455877" @default.
W4310596284 hasPublicationYear "2022" @default.
W4310596284 type Work @default.
W4310596284 citedByCount "18" @default.
W4310596284 countsByYear W43105962842023 @default.
W4310596284 crossrefType "journal-article" @default.
W4310596284 hasAuthorship W4310596284A5011085153 @default.
W4310596284 hasAuthorship W4310596284A5036668774 @default.
W4310596284 hasAuthorship W4310596284A5040389793 @default.
W4310596284 hasAuthorship W4310596284A5051080686 @default.
W4310596284 hasAuthorship W4310596284A5058442779 @default.
W4310596284 hasAuthorship W4310596284A5069789783 @default.
W4310596284 hasAuthorship W4310596284A5085352453 @default.