SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2045581572> ?p ?o ?g. }

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

W2045581572 endingPage "473" @default.
W2045581572 startingPage "465" @default.
W2045581572 abstract "A new, symmetrical, high rate, solid-state EDLC (electrical double layer capacitor) has been fabricated employing a plastic crystal SN (succinonitrile) based GPE (gel polymer electrolyte) and GNPs (graphene nano-platelets) as electrodes. The free-standing GPE film containing poly(vinylidene fluoride-co-hexafluoropropylene) (PVdF-HFP) exhibits the excellent suitability as electrolyte in EDLC due to its high ionic conductivity (∼2 × 10−3 S cm−1 at 20 °C), thermal stability (from −30 to 80 °C), electrochemical stability window (∼3.5 V vs. Ag), and excellent mechanical properties. The high rate capability of the EDLC has been observed from the impedance analysis in terms of high knee frequency (∼58 Hz), low response time (∼791 ms) and high pulse power (∼16.4 kW kg−1). The cyclic voltammetric response indicates the capacitive performance up to a substantially high scan rate of 1000 mV s−1, which further confirms the high rate performance of the EDLC. Though the specific energy of the solid-state EDLC is observed to be low (Emax ∼ 8.2 Wh kg−1), its power density is substantially high (Pmax > 4 kW kg−1). After ∼20% decrement in specific capacitance during the initial charge–discharge cycles, the EDLC offers almost stable performance up to ∼3500 cycles." @default.
W2045581572 created "2016-06-24" @default.
W2045581572 creator A5024514217 @default.
W2045581572 creator A5057749967 @default.
W2045581572 creator A5064559647 @default.
W2045581572 creator A5076820213 @default.
W2045581572 date "2015-02-01" @default.
W2045581572 modified "2023-10-04" @default.
W2045581572 title "A novel configuration of electrical double layer capacitor with plastic crystal based gel polymer electrolyte and graphene nano-platelets as electrodes: A high rate performance" @default.
W2045581572 cites W1966530066 @default.
W2045581572 cites W1979225715 @default.
W2045581572 cites W1980886183 @default.
W2045581572 cites W1982345975 @default.
W2045581572 cites W1982838319 @default.
W2045581572 cites W1984775992 @default.
W2045581572 cites W1986051696 @default.
W2045581572 cites W1989974733 @default.
W2045581572 cites W1990589060 @default.
W2045581572 cites W1998893332 @default.
W2045581572 cites W2001818344 @default.
W2045581572 cites W2007435578 @default.
W2045581572 cites W2009717712 @default.
W2045581572 cites W2011630845 @default.
W2045581572 cites W2014935324 @default.
W2045581572 cites W2017564268 @default.
W2045581572 cites W2018652376 @default.
W2045581572 cites W2019621830 @default.
W2045581572 cites W2020914277 @default.
W2045581572 cites W2021262065 @default.
W2045581572 cites W2024902620 @default.
W2045581572 cites W2029885271 @default.
W2045581572 cites W2031004145 @default.
W2045581572 cites W2044005476 @default.
W2045581572 cites W2047061717 @default.
W2045581572 cites W2052480280 @default.
W2045581572 cites W2054559385 @default.
W2045581572 cites W2057783868 @default.
W2045581572 cites W2060616668 @default.
W2045581572 cites W2062161304 @default.
W2045581572 cites W2068577085 @default.
W2045581572 cites W2071450364 @default.
W2045581572 cites W2072769664 @default.
W2045581572 cites W2083836259 @default.
W2045581572 cites W2091778201 @default.
W2045581572 cites W2099486983 @default.
W2045581572 cites W2103246110 @default.
W2045581572 cites W2114377120 @default.
W2045581572 cites W2136923822 @default.
W2045581572 cites W2146200259 @default.
W2045581572 cites W2164394513 @default.
W2045581572 cites W2166328433 @default.
W2045581572 cites W2324154473 @default.
W2045581572 cites W2324219959 @default.
W2045581572 cites W3103690504 @default.
W2045581572 cites W4244317435 @default.
W2045581572 doi "https://doi.org/10.1016/j.energy.2014.11.087" @default.
W2045581572 hasPublicationYear "2015" @default.
W2045581572 type Work @default.
W2045581572 sameAs 2045581572 @default.
W2045581572 citedByCount "86" @default.
W2045581572 countsByYear W20455815722015 @default.
W2045581572 countsByYear W20455815722016 @default.
W2045581572 countsByYear W20455815722017 @default.
W2045581572 countsByYear W20455815722018 @default.
W2045581572 countsByYear W20455815722019 @default.
W2045581572 countsByYear W20455815722020 @default.
W2045581572 countsByYear W20455815722021 @default.
W2045581572 countsByYear W20455815722022 @default.
W2045581572 countsByYear W20455815722023 @default.
W2045581572 crossrefType "journal-article" @default.
W2045581572 hasAuthorship W2045581572A5024514217 @default.
W2045581572 hasAuthorship W2045581572A5057749967 @default.
W2045581572 hasAuthorship W2045581572A5064559647 @default.
W2045581572 hasAuthorship W2045581572A5076820213 @default.
W2045581572 hasConcept C119599485 @default.
W2045581572 hasConcept C127413603 @default.
W2045581572 hasConcept C138679309 @default.
W2045581572 hasConcept C147789679 @default.
W2045581572 hasConcept C15920480 @default.
W2045581572 hasConcept C159985019 @default.
W2045581572 hasConcept C165801399 @default.
W2045581572 hasConcept C171250308 @default.
W2045581572 hasConcept C17525397 @default.
W2045581572 hasConcept C178790620 @default.
W2045581572 hasConcept C185592680 @default.
W2045581572 hasConcept C192562407 @default.
W2045581572 hasConcept C2776906716 @default.
W2045581572 hasConcept C2777316251 @default.
W2045581572 hasConcept C2777869211 @default.
W2045581572 hasConcept C2779402669 @default.
W2045581572 hasConcept C2779520095 @default.
W2045581572 hasConcept C2780958456 @default.
W2045581572 hasConcept C2781161615 @default.
W2045581572 hasConcept C30066665 @default.
W2045581572 hasConcept C30080830 @default.
W2045581572 hasConcept C40834362 @default.
W2045581572 hasConcept C42360764 @default.
W2045581572 hasConcept C44280652 @default.