FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3197349580> ?p ?o ?g. }

• W3197349580 endingPage "109011" @default.
• W3197349580 startingPage "109011" @default.
• W3197349580 abstract "With the demand of green energy upsurging, piezoelectric nanogenerators (PENGs) are booming for next generation of wearable energy supply. In this work, Y-doped ZnO was manufactured with yield of ~3.2 g (~74%) in one pot, and PVDF/Y-doped ZnO electrospun films was fabricated with flexibility of PVDF and high piezoelectricity of Y-doped ZnO (Y–ZnO). Among all electrospun films, the degree of dipole orientation of PVDF and the contents of Y-doped ZnO in 15 Y-Z films is uppermost except for agglomerated 20 Y-Z electrospun film. Increasing amounts of Y–ZnO and enhanced alignment degree of PVDF cause increased piezoelectric output. When walking or running on 15 Y-Z PENG, output voltage raised to ~20 V and ~35 V, and capacitor of 5 μF was charged to ~2.8 V and ~3.7 V in 50 s. For 15 Y-Z PENG with high F(β) of 98%, its output voltage and current increased to ~13 V and ~1.6 μA, and its maximum instantaneous power density (~2 μW/cm2) was obtained with load of 10 MΩ at 40 N and 0.8 Hz. In addition, 15 Y-Z PENG can withstand compressing and releasing for 1100 s at 0.8 Hz. Such brilliant performance earns gigantic prospect of application on collecting teeny-weeny energy." @default.
• W3197349580 created "2021-09-13" @default.
• W3197349580 creator A5022836600 @default.
• W3197349580 creator A5030665497 @default.
• W3197349580 creator A5059499726 @default.
• W3197349580 creator A5081813438 @default.
• W3197349580 creator A5088422975 @default.
• W3197349580 date "2021-10-01" @default.
• W3197349580 modified "2023-09-28" @default.
• W3197349580 title "Gram-scale Y-doped ZnO and PVDF electrospun film for piezoelectric nanogenerators" @default.
• W3197349580 cites W2078868463 @default.
• W3197349580 cites W2095904636 @default.
• W3197349580 cites W2288829902 @default.
• W3197349580 cites W2612590039 @default.
• W3197349580 cites W2774903971 @default.
• W3197349580 cites W2779060743 @default.
• W3197349580 cites W2792030130 @default.
• W3197349580 cites W2795865648 @default.
• W3197349580 cites W2801508480 @default.
• W3197349580 cites W2802163317 @default.
• W3197349580 cites W2805558891 @default.
• W3197349580 cites W2805615492 @default.
• W3197349580 cites W2808337050 @default.
• W3197349580 cites W2888313233 @default.
• W3197349580 cites W2890374065 @default.
• W3197349580 cites W2892484037 @default.
• W3197349580 cites W2898029035 @default.
• W3197349580 cites W2904911374 @default.
• W3197349580 cites W2908055408 @default.
• W3197349580 cites W2914654513 @default.
• W3197349580 cites W2940573052 @default.
• W3197349580 cites W2943462098 @default.
• W3197349580 cites W2964978013 @default.
• W3197349580 cites W2995068028 @default.
• W3197349580 cites W3001244118 @default.
• W3197349580 cites W3001328763 @default.
• W3197349580 cites W3007047405 @default.
• W3197349580 cites W3008379667 @default.
• W3197349580 cites W3014673663 @default.
• W3197349580 cites W3020917952 @default.
• W3197349580 cites W3024158107 @default.
• W3197349580 cites W3024527600 @default.
• W3197349580 cites W3027967366 @default.
• W3197349580 cites W3029562374 @default.
• W3197349580 cites W3034255439 @default.
• W3197349580 cites W3036585502 @default.
• W3197349580 cites W3038336904 @default.
• W3197349580 cites W3038536562 @default.
• W3197349580 cites W3038678644 @default.
• W3197349580 cites W3049087211 @default.
• W3197349580 cites W3088246059 @default.
• W3197349580 cites W3088420644 @default.
• W3197349580 cites W3097367777 @default.
• W3197349580 cites W3102767371 @default.
• W3197349580 cites W3112973558 @default.
• W3197349580 cites W3117961735 @default.
• W3197349580 doi "https://doi.org/10.1016/j.compscitech.2021.109011" @default.
• W3197349580 hasPublicationYear "2021" @default.
• W3197349580 type Work @default.
• W3197349580 sameAs 3197349580 @default.
• W3197349580 citedByCount "22" @default.
• W3197349580 countsByYear W31973495802022 @default.
• W3197349580 countsByYear W31973495802023 @default.
• W3197349580 crossrefType "journal-article" @default.
• W3197349580 hasAuthorship W3197349580A5022836600 @default.
• W3197349580 hasAuthorship W3197349580A5030665497 @default.
• W3197349580 hasAuthorship W3197349580A5059499726 @default.
• W3197349580 hasAuthorship W3197349580A5081813438 @default.
• W3197349580 hasAuthorship W3197349580A5088422975 @default.
• W3197349580 hasConcept C100082104 @default.
• W3197349580 hasConcept C119599485 @default.
• W3197349580 hasConcept C127413603 @default.
• W3197349580 hasConcept C144796933 @default.
• W3197349580 hasConcept C159985019 @default.
• W3197349580 hasConcept C165801399 @default.
• W3197349580 hasConcept C171250308 @default.
• W3197349580 hasConcept C192562407 @default.
• W3197349580 hasConcept C49040817 @default.
• W3197349580 hasConcept C521977710 @default.
• W3197349580 hasConcept C57863236 @default.
• W3197349580 hasConcept C91129048 @default.
• W3197349580 hasConceptScore W3197349580C100082104 @default.
• W3197349580 hasConceptScore W3197349580C119599485 @default.
• W3197349580 hasConceptScore W3197349580C127413603 @default.
• W3197349580 hasConceptScore W3197349580C144796933 @default.
• W3197349580 hasConceptScore W3197349580C159985019 @default.
• W3197349580 hasConceptScore W3197349580C165801399 @default.
• W3197349580 hasConceptScore W3197349580C171250308 @default.
• W3197349580 hasConceptScore W3197349580C192562407 @default.
• W3197349580 hasConceptScore W3197349580C49040817 @default.
• W3197349580 hasConceptScore W3197349580C521977710 @default.
• W3197349580 hasConceptScore W3197349580C57863236 @default.
• W3197349580 hasConceptScore W3197349580C91129048 @default.
• W3197349580 hasFunder F4320321001 @default.
• W3197349580 hasFunder F4320324638 @default.
• W3197349580 hasLocation W31973495801 @default.
• W3197349580 hasOpenAccess W3197349580 @default.
• W3197349580 hasPrimaryLocation W31973495801 @default.

• next