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Journal Abstract Search

129 related items for PubMed ID: 38085978

  • 1. Solvent-Tailored Reversible Self-Assembly: Unveiling Ionic Transport Nanochannels in Block Copolymer Composite Electrolytes.
    Tseng YH, Liao CW, Lin YL, Fan YC, Chang CW, Chang CT, Chen JT.
    ACS Appl Mater Interfaces; 2024 Jan 17; 16(2):2716-2725. PubMed ID: 38085978
    [Abstract] [Full Text] [Related]

  • 2. Intrinsic Ion Transport Properties of Block Copolymer Electrolytes.
    Sharon D, Bennington P, Dolejsi M, Webb MA, Dong BX, de Pablo JJ, Nealey PF, Patel SN.
    ACS Nano; 2020 Jul 28; 14(7):8902-8914. PubMed ID: 32496776
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  • 3. Molecular Level Differences in Ionic Solvation and Transport Behavior in Ethylene Oxide-Based Homopolymer and Block Copolymer Electrolytes.
    Sharon D, Bennington P, Webb MA, Deng C, de Pablo JJ, Patel SN, Nealey PF.
    J Am Chem Soc; 2021 Mar 03; 143(8):3180-3190. PubMed ID: 33615794
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  • 4. Simultaneous Improvement of Ionic Conductivity and Mechanical Strength in Block Copolymer Electrolytes with Double Conductive Nanophases.
    Cao XH, Li JH, Yang MJ, Yang JL, Wang RY, Zhang XH, Xu JT.
    Macromol Rapid Commun; 2020 Apr 03; 41(7):e1900622. PubMed ID: 32077181
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  • 7. Simple Route for Tuning the Morphology and Conductivity of Polymer Electrolytes: One End Functional Group is Enough.
    Jo G, Ahn H, Park MJ.
    ACS Macro Lett; 2013 Nov 19; 2(11):990-995. PubMed ID: 35581866
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  • 9. Three-dimensional block copolymer nanostructures by the solvent-annealing-induced wetting in anodic aluminum oxide templates.
    Chu CJ, Chung PY, Chi MH, Kao YH, Chen JT.
    Macromol Rapid Commun; 2014 Sep 19; 35(18):1598-605. PubMed ID: 25098757
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  • 10. Vertically Aligned and Continuous Nanoscale Ceramic-Polymer Interfaces in Composite Solid Polymer Electrolytes for Enhanced Ionic Conductivity.
    Zhang X, Xie J, Shi F, Lin D, Liu Y, Liu W, Pei A, Gong Y, Wang H, Liu K, Xiang Y, Cui Y.
    Nano Lett; 2018 Jun 13; 18(6):3829-3838. PubMed ID: 29727578
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  • 11. A Super-Ionic Solid-State Block Copolymer Electrolyte.
    Krause DT, Förster B, Dulle M, Krämer S, Böckmann S, Mönich C, Hansen MR, Schönhoff M, Siozios V, Grünebaum M, Winter M, Förster S, Wiemhöfer HD.
    Small; 2024 Dec 13; 20(49):e2404297. PubMed ID: 39282822
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  • 12. Enhanced ionic conductivity and mechanical strength in nanocomposite electrolytes with nonlinear polymer architectures.
    Bakar R, Darvishi S, Şenses E.
    Turk J Chem; 2023 Dec 13; 47(1):242-252. PubMed ID: 37720861
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  • 13. Measurement of Three Transport Coefficients and the Thermodynamic Factor in Block Copolymer Electrolytes with Different Morphologies.
    Galluzzo MD, Loo WS, Wang AA, Walton A, Maslyn JA, Balsara NP.
    J Phys Chem B; 2020 Feb 06; 124(5):921-935. PubMed ID: 31967824
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  • 17. Blending Homopolymers for Controlling the Morphology Transitions of Block Copolymer Nanorods Confined in Cylindrical Nanopores.
    Cheng MH, Hsu YC, Chang CW, Ko HW, Chung PY, Chen JT.
    ACS Appl Mater Interfaces; 2017 Jun 21; 9(24):21010-21016. PubMed ID: 28558189
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  • 18. Boosting Ion Conductivities: Light-Modulated Azobenzene-Based Ionic Liquids in Vertical Nanochannels.
    Zheng S, Lin YL, Chang CC, Lee MJ, Chen YF, Lee LR, Chang MH, Chen JT.
    ACS Appl Mater Interfaces; 2023 Sep 27; 15(38):45418-45425. PubMed ID: 37677063
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  • 19. A Flexible Solid Composite Electrolyte with Vertically Aligned and Connected Ion-Conducting Nanoparticles for Lithium Batteries.
    Zhai H, Xu P, Ning M, Cheng Q, Mandal J, Yang Y.
    Nano Lett; 2017 May 10; 17(5):3182-3187. PubMed ID: 28409638
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