SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380201209> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W4380201209 endingPage "102850" @default.
W4380201209 startingPage "102850" @default.
W4380201209 abstract "The rapid growth of the electronics industry has increased the demand for electrochemical capacitors with a combination of high capacitance, high energy and power density, and long cycling stability. To achieve this, a rational design of electrode materials with high surface area, suitable porosity, and excellent electronic and ionic conductivity is required. Herein, high aspect ratio poly(3,4-ethylenedioxythiophene) (PEDOT) nano and microfibers with increased accessible surface area and porosity are grown on a three-dimensional laser-scribed graphene (LSG) network through a facile vapor phase polymerization process. The resultant electrode showed an outstanding areal capacitance of 1463 mF cm−2. To the best of our knowledge, this is the highest value reported so far for a vapor phase polymerized PEDOT/LSG supercapacitor. It also displayed an impressive capacitance retention of over 89.7% after 10,000 cycles at a current density of 30 mA cm−2 with a potential window of 1.0 V. Furthermore, the capacitive current contribution is a remarkable 96% with a maximum energy and power density of 75.21 µWh cm−2 and 136 mW cm−2, respectively. The resultant binderless nanofiber composite electrode offers the advantages of better adhesion, improved specific surface area, suitable porosity, and enhanced electronic and ionic conductivity." @default.
W4380201209 created "2023-06-11" @default.
W4380201209 creator A5051790954 @default.
W4380201209 creator A5053257237 @default.
W4380201209 creator A5074287934 @default.
W4380201209 creator A5075088191 @default.
W4380201209 creator A5077490890 @default.
W4380201209 creator A5081325696 @default.
W4380201209 date "2023-08-01" @default.
W4380201209 modified "2023-09-23" @default.
W4380201209 title "Template-free route to PEDOT nanofibers for 3D electrodes with ultrahigh capacitance and excellent cycling stability" @default.
W4380201209 cites W1757205207 @default.
W4380201209 cites W1971619988 @default.
W4380201209 cites W1978852353 @default.
W4380201209 cites W1982897742 @default.
W4380201209 cites W1987305843 @default.
W4380201209 cites W2000320449 @default.
W4380201209 cites W2004422660 @default.
W4380201209 cites W2016464593 @default.
W4380201209 cites W2034874122 @default.
W4380201209 cites W2041476515 @default.
W4380201209 cites W2043736283 @default.
W4380201209 cites W2046176407 @default.
W4380201209 cites W2053219565 @default.
W4380201209 cites W2057678840 @default.
W4380201209 cites W2070736875 @default.
W4380201209 cites W2072221350 @default.
W4380201209 cites W2081106545 @default.
W4380201209 cites W2083872229 @default.
W4380201209 cites W2095977815 @default.
W4380201209 cites W2097924219 @default.
W4380201209 cites W2123517711 @default.
W4380201209 cites W2132312776 @default.
W4380201209 cites W2150436825 @default.
W4380201209 cites W2150627311 @default.
W4380201209 cites W2205940839 @default.
W4380201209 cites W2209229675 @default.
W4380201209 cites W2269189512 @default.
W4380201209 cites W2323420467 @default.
W4380201209 cites W2330895409 @default.
W4380201209 cites W2409594754 @default.
W4380201209 cites W2581511786 @default.
W4380201209 cites W2594815174 @default.
W4380201209 cites W2614117417 @default.
W4380201209 cites W2615986546 @default.
W4380201209 cites W2755905142 @default.
W4380201209 cites W2757882885 @default.
W4380201209 cites W2768655412 @default.
W4380201209 cites W2810044986 @default.
W4380201209 cites W2810634388 @default.
W4380201209 cites W2904949493 @default.
W4380201209 cites W2905716063 @default.
W4380201209 cites W2925103345 @default.
W4380201209 cites W2944731012 @default.
W4380201209 cites W2957840340 @default.
W4380201209 cites W2964797291 @default.
W4380201209 cites W2971885470 @default.
W4380201209 cites W2984074512 @default.
W4380201209 cites W2988443530 @default.
W4380201209 cites W3002879282 @default.
W4380201209 cites W3011533671 @default.
W4380201209 cites W3012461851 @default.
W4380201209 cites W3035403937 @default.
W4380201209 cites W3078447548 @default.
W4380201209 cites W3095587229 @default.
W4380201209 cites W3166802886 @default.
W4380201209 cites W3169093314 @default.
W4380201209 cites W3174212748 @default.
W4380201209 cites W3174519208 @default.
W4380201209 cites W3197784678 @default.
W4380201209 cites W3213757877 @default.
W4380201209 cites W4280622505 @default.
W4380201209 doi "https://doi.org/10.1016/j.ensm.2023.102850" @default.
W4380201209 hasPublicationYear "2023" @default.
W4380201209 type Work @default.
W4380201209 citedByCount "0" @default.
W4380201209 crossrefType "journal-article" @default.
W4380201209 hasAuthorship W4380201209A5051790954 @default.
W4380201209 hasAuthorship W4380201209A5053257237 @default.
W4380201209 hasAuthorship W4380201209A5074287934 @default.
W4380201209 hasAuthorship W4380201209A5075088191 @default.
W4380201209 hasAuthorship W4380201209A5077490890 @default.
W4380201209 hasAuthorship W4380201209A5081325696 @default.
W4380201209 hasConcept C119599485 @default.
W4380201209 hasConcept C121332964 @default.
W4380201209 hasConcept C127413603 @default.
W4380201209 hasConcept C131540310 @default.
W4380201209 hasConcept C147789679 @default.
W4380201209 hasConcept C150581940 @default.
W4380201209 hasConcept C159985019 @default.
W4380201209 hasConcept C161790260 @default.
W4380201209 hasConcept C163258240 @default.
W4380201209 hasConcept C165801399 @default.
W4380201209 hasConcept C170029824 @default.
W4380201209 hasConcept C171250308 @default.
W4380201209 hasConcept C17525397 @default.
W4380201209 hasConcept C185592680 @default.
W4380201209 hasConcept C192562407 @default.