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Journal Abstract Search

361 related items for PubMed ID: 32923770

  • 1. Boosting the Utilization and Electrochemical Performances of Polyaniline by Forming a Binder-Free Nanoscale Coaxially Coated Polyaniline/Carbon Nanotube/Carbon Fiber Paper Hierarchical 3D Microstructure Composite as a Supercapacitor Electrode.
    Du J, Li Y, Zhong Q, Yang J, Xiao J, Chen D, Wang F, Luo Y, Chen K, Li W.
    ACS Omega; 2020 Sep 08; 5(35):22119-22130. PubMed ID: 32923770
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  • 2. Supercapacitor Electrodes Based on High-Purity Electrospun Polyaniline and Polyaniline-Carbon Nanotube Nanofibers.
    Simotwo SK, DelRe C, Kalra V.
    ACS Appl Mater Interfaces; 2016 Aug 24; 8(33):21261-9. PubMed ID: 27467445
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  • 3. Hierarchical composites of polyaniline-graphene nanoribbons-carbon nanotubes as electrode materials in all-solid-state supercapacitors.
    Liu M, Miao YE, Zhang C, Tjiu WW, Yang Z, Peng H, Liu T.
    Nanoscale; 2013 Aug 21; 5(16):7312-20. PubMed ID: 23821299
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  • 4. Carboxymethylcellulose-polyaniline/carbon nanotube (CMC-PANI/CNT) film as flexible and highly electrochemical active electrode for supercapacitors.
    Xu H, Cui L, Pan X, An Y, Jin X.
    Int J Biol Macromol; 2022 Oct 31; 219():1135-1145. PubMed ID: 36049565
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  • 5. Hierarchical core/shell structure of MnO2@polyaniline composites grown on carbon fiber paper for application in pseudocapacitors.
    Yang M, Hong SB, Choi BG.
    Phys Chem Chem Phys; 2015 Nov 28; 17(44):29874-9. PubMed ID: 26486195
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  • 6. Fabrication and Electrochemical Performance of PVA/CNT/PANI Flexible Films as Electrodes for Supercapacitors.
    Ben J, Song Z, Liu X, Lü W, Li X.
    Nanoscale Res Lett; 2020 Jul 22; 15(1):151. PubMed ID: 32699960
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  • 8. Modified Carbon Fiber Paper-Based Electrodes Wrapped by Conducting Polymers with Enhanced Electrochemical Performance for Supercapacitors.
    Tan S, Li J, Zhou L, Chen P, Shi J, Xu Z.
    Polymers (Basel); 2018 Sep 27; 10(10):. PubMed ID: 30960997
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  • 11. An easy to assemble PDMS/CNTs/PANI flexible supercapacitor with high energy-to-power density.
    Balboni RDC, Maron GK, Masteghin MG, Tas MO, Rodrigues LS, Gehrke V, Alano JH, Andreazza R, Carreño NLV, Silva SRP.
    Nanoscale; 2022 Feb 10; 14(6):2266-2276. PubMed ID: 35080562
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  • 13. Development of 3D Urchin-Shaped Coaxial Manganese Dioxide@Polyaniline (MnO2@PANI) Composite and Self-Assembled 3D Pillared Graphene Foam for Asymmetric All-Solid-State Flexible Supercapacitor Application.
    Ghosh K, Yue CY, Sk MM, Jena RK.
    ACS Appl Mater Interfaces; 2017 May 10; 9(18):15350-15363. PubMed ID: 28414212
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  • 14. A Self-supported Graphene/Carbon Nanotube Hollow Fiber for Integrated Energy Conversion and Storage.
    Liu K, Chen Z, Lv T, Yao Y, Li N, Li H, Chen T.
    Nanomicro Lett; 2020 Feb 25; 12(1):64. PubMed ID: 34138272
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  • 16. Crosslinked Carbon Nanotubes/Polyaniline Composites as a Pseudocapacitive Material with High Cycling Stability.
    Liu D, Wang X, Deng J, Zhou C, Guo J, Liu P.
    Nanomaterials (Basel); 2015 Jun 11; 5(2):1034-1047. PubMed ID: 28347050
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  • 20. 3 D Network-Structured Crumpled Graphene/Carbon Nanotube/Polyaniline Composites for Supercapacitors.
    Jo EH, Jang HD, Chang H, Kim SK, Choi JH, Lee CM.
    ChemSusChem; 2017 May 22; 10(10):2210-2217. PubMed ID: 28383820
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