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Journal Abstract Search

399 related items for PubMed ID: 26929042

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  • 2. Graphene-patched CNT/MnO2 nanocomposite papers for the electrode of high-performance flexible asymmetric supercapacitors.
    Jin Y, Chen H, Chen M, Liu N, Li Q.
    ACS Appl Mater Interfaces; 2013 Apr 24; 5(8):3408-16. PubMed ID: 23488813
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  • 3. Synthesis and loading-dependent characteristics of nitrogen-doped graphene foam/carbon nanotube/manganese oxide ternary composite electrodes for high performance supercapacitors.
    Cheng T, Yu B, Cao L, Tan H, Li X, Zheng X, Li W, Ren Z, Bai J.
    J Colloid Interface Sci; 2017 Sep 01; 501():1-10. PubMed ID: 28431216
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  • 4. Graphene-based supercapacitor with carbon nanotube film as highly efficient current collector.
    Notarianni M, Liu J, Mirri F, Pasquali M, Motta N.
    Nanotechnology; 2014 Oct 31; 25(43):435405. PubMed ID: 25301789
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  • 5. Flexible solid-state supercapacitors based on three-dimensional graphene hydrogel films.
    Xu Y, Lin Z, Huang X, Liu Y, Huang Y, Duan X.
    ACS Nano; 2013 May 28; 7(5):4042-9. PubMed ID: 23550832
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  • 9. In Situ Growth of a High-Performance All-Solid-State Electrode for Flexible Supercapacitors Based on a PANI/CNT/EVA Composite.
    Guan X, Kong D, Huang Q, Cao L, Zhang P, Lin H, Lin Z, Yuan H.
    Polymers (Basel); 2019 Jan 21; 11(1):. PubMed ID: 30960162
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  • 10. Polymorphous Supercapacitors Constructed from Flexible Three-Dimensional Carbon Network/Polyaniline/MnO2 Composite Textiles.
    Wang J, Dong L, Xu C, Ren D, Ma X, Kang F.
    ACS Appl Mater Interfaces; 2018 Apr 04; 10(13):10851-10859. PubMed ID: 29528208
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  • 11. Iron Sulfide Microspheres Supported on Cellulose-Carbon Nanotube Conductive Flexible Film as an Electrode Material for Aqueous-Based Symmetric Supercapacitors with High Voltage.
    Parayangattil Jyothibasu J, Tien YC, Chen ZT, Yang H, Chiang TH, El-Mahdy AFM, Lee RH.
    ACS Omega; 2024 Jun 18; 9(24):26582-26595. PubMed ID: 38911739
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  • 14. Carbon nanotube network film directly grown on carbon cloth for high-performance solid-state flexible supercapacitors.
    Zhou C, Liu J.
    Nanotechnology; 2014 Jan 24; 25(3):035402. PubMed ID: 24356470
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  • 15. Preparation and characterization of flexible asymmetric supercapacitors based on transition-metal-oxide nanowire/single-walled carbon nanotube hybrid thin-film electrodes.
    Chen PC, Shen G, Shi Y, Chen H, Zhou C.
    ACS Nano; 2010 Aug 24; 4(8):4403-11. PubMed ID: 20731426
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  • 16. High Performance All-solid Supercapacitors Based on the Network of Ultralong Manganese dioxide/Polyaniline Coaxial Nanowires.
    Zhou J, Yu L, Liu W, Zhang X, Mu W, Du X, Zhang Z, Deng Y.
    Sci Rep; 2015 Dec 08; 5():17858. PubMed ID: 26644364
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  • 17. High-performance hybrid carbon nanotube fibers for wearable energy storage.
    Lu Z, Chao Y, Ge Y, Foroughi J, Zhao Y, Wang C, Long H, Wallace GG.
    Nanoscale; 2017 Apr 20; 9(16):5063-5071. PubMed ID: 28265639
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  • 18. Hierarchically core-shell structured nanocellulose/carbon nanotube hybrid aerogels for patternable, self-healing and flexible supercapacitors.
    Cheng X, Wang H, Wang S, Jiao Y, Sang C, Jiang S, He S, Mei C, Xu X, Xiao H, Han J.
    J Colloid Interface Sci; 2024 Apr 15; 660():923-933. PubMed ID: 38280285
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  • 19. Construction of TiO2 Nanotubes/C/MnO2 Composite Films as a Binder-Free Electrode for a High-Performance Supercapacitor.
    Zhang Z, Yao Z, Meng Y, Li D, Xia Q, Jiang Z.
    Inorg Chem; 2019 Jan 22; 58(2):1591-1598. PubMed ID: 30628794
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  • 20. Highly Conductive Mo2C Nanofibers Encapsulated in Ultrathin MnO2 Nanosheets as a Self-Supported Electrode for High-Performance Capacitive Energy Storage.
    Shi M, Zhao L, Song X, Liu J, Zhang P, Gao L.
    ACS Appl Mater Interfaces; 2016 Nov 30; 8(47):32460-32467. PubMed ID: 27808498
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