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Journal Abstract Search

539 related items for PubMed ID: 25299341

  • 1. One-step synthesis of free-standing α-Ni(OH)₂ nanosheets on reduced graphene oxide for high-performance supercapacitors.
    Dong B, Zhou H, Liang J, Zhang L, Gao G, Ding S.
    Nanotechnology; 2014 Oct 31; 25(43):435403. PubMed ID: 25299341
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  • 2. Interconnected 3 D Network of Graphene-Oxide Nanosheets Decorated with Carbon Dots for High-Performance Supercapacitors.
    Zhao X, Li M, Dong H, Liu Y, Hu H, Cai Y, Liang Y, Xiao Y, Zheng M.
    ChemSusChem; 2017 Jun 22; 10(12):2626-2634. PubMed ID: 28440020
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  • 5. Free-Standing Hybrid Graphene Paper Encapsulating Nanostructures for High Cycle-Life Supercapacitors.
    Jiao X, Hao Q, Xia X, Lei W, Ouyang Y, Ye H, Mandler D.
    ChemSusChem; 2018 Mar 09; 11(5):907-915. PubMed ID: 29388379
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  • 6. Large-scale synthesis of reduced graphene oxides with uniformly coated polyaniline for supercapacitor applications.
    Salunkhe RR, Hsu SH, Wu KC, Yamauchi Y.
    ChemSusChem; 2014 Jun 09; 7(6):1551-6. PubMed ID: 24850493
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  • 7. In situ growth of Ni(x)Co(100-x) nanoparticles on reduced graphene oxide nanosheets and their magnetic and catalytic properties.
    Bai S, Shen X, Zhu G, Li M, Xi H, Chen K.
    ACS Appl Mater Interfaces; 2012 May 09; 4(5):2378-86. PubMed ID: 22486337
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  • 8. Synthesis of bacteria promoted reduced graphene oxide-nickel sulfide networks for advanced supercapacitors.
    Zhang H, Yu X, Guo D, Qu B, Zhang M, Li Q, Wang T.
    ACS Appl Mater Interfaces; 2013 Aug 14; 5(15):7335-40. PubMed ID: 23751359
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  • 9. Thermal treatment effects on charge storage performance of graphene-based materials for supercapacitors.
    Zhang H, Bhat VV, Gallego NC, Contescu CI.
    ACS Appl Mater Interfaces; 2012 Jun 27; 4(6):3239-46. PubMed ID: 22680779
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  • 12. Synthesis of one-dimensional hierarchical NiO hollow nanostructures with enhanced supercapacitive performance.
    Zhang G, Yu L, Hoster HE, Lou XW.
    Nanoscale; 2013 Feb 07; 5(3):877-81. PubMed ID: 23238333
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  • 13. 3D graphene-cobalt oxide electrode for high-performance supercapacitor and enzymeless glucose detection.
    Dong XC, Xu H, Wang XW, Huang YX, Chan-Park MB, Zhang H, Wang LH, Huang W, Chen P.
    ACS Nano; 2012 Apr 24; 6(4):3206-13. PubMed ID: 22435881
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  • 15. Free-standing ultrathin CoMn2O4 nanosheets anchored on reduced graphene oxide for high-performance supercapacitors.
    Gao G, Lu S, Xiang Y, Dong B, Yan W, Ding S.
    Dalton Trans; 2015 Nov 21; 44(43):18737-42. PubMed ID: 26477305
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  • 16. Construction of Hierarchical CNT/rGO-Supported MnMoO4 Nanosheets on Ni Foam for High-Performance Aqueous Hybrid Supercapacitors.
    Mu X, Du J, Zhang Y, Liang Z, Wang H, Huang B, Zhou J, Pan X, Zhang Z, Xie E.
    ACS Appl Mater Interfaces; 2017 Oct 18; 9(41):35775-35784. PubMed ID: 28948775
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  • 17. Paper-based transparent flexible thin film supercapacitors.
    Gao K, Shao Z, Wu X, Wang X, Zhang Y, Wang W, Wang F.
    Nanoscale; 2013 Jun 21; 5(12):5307-11. PubMed ID: 23686244
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  • 18. Electrodeposition of palladium and reduced graphene oxide nanocomposites on foam-nickel electrode for electrocatalytic hydrodechlorination of 4-chlorophenol.
    Liu Y, Liu L, Shan J, Zhang J.
    J Hazard Mater; 2015 Jun 15; 290():1-8. PubMed ID: 25731146
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  • 19. Highly conductive three-dimensional MnO2-carbon nanotube-graphene-Ni hybrid foam as a binder-free supercapacitor electrode.
    Zhu G, He Z, Chen J, Zhao J, Feng X, Ma Y, Fan Q, Wang L, Huang W.
    Nanoscale; 2014 Jan 21; 6(2):1079-85. PubMed ID: 24296659
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