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Journal Abstract Search

173 related items for PubMed ID: 33096535

  • 41. Cobalt-Carbon nanotubes supported on V2O3 nanorods as sulfur hosts for High-performance Lithium-Sulfur batteries.
    Dan J, Zhou W, Chen M, Zhu C, Li S, Zhao D, Li L, An M.
    J Colloid Interface Sci; 2023 Jun 15; 640():877-889. PubMed ID: 36907148
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  • 42. A conductive and ordered macroporous structure design of titanium oxide-based catalytic cathode for lithium-sulfur batteries.
    Liu F, Guan Y, Du X, Liu G, Sun D, Li J.
    Nanotechnology; 2021 Dec 24; 33(12):. PubMed ID: 34852338
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  • 44. Self-Templated Formation of Carbon Nanotubes Interpenetrating Ordered Microporous Carbon Nanospheres for High-Performance Li-S Batteries.
    Dai B, Liu Y, Zhang H, Wang S, Wang Y, Jin Z, Zhang J, Guo J, Li J, Han B.
    Langmuir; 2023 Jul 04; 39(26):9094-9099. PubMed ID: 37327482
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  • 48. From Metal-Organic Framework to Li2S@C-Co-N Nanoporous Architecture: A High-Capacity Cathode for Lithium-Sulfur Batteries.
    He J, Chen Y, Lv W, Wen K, Xu C, Zhang W, Li Y, Qin W, He W.
    ACS Nano; 2016 Dec 27; 10(12):10981-10987. PubMed ID: 28024364
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  • 49. Enhancing Adsorption and Reaction Kinetics of Polysulfides Using CoP-Coated N-Doped Mesoporous Carbon for High-Energy-Density Lithium-Sulfur Batteries.
    Cheng Q, Yin Z, Pan S, Zhang G, Pan Z, Yu X, Fang Y, Rao H, Zhong X.
    ACS Appl Mater Interfaces; 2020 Sep 30; 12(39):43844-43853. PubMed ID: 32897698
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  • 52. Incorporating Cobalt Nanoparticles in Nitrogen-Doped Mesoporous Carbon Spheres through Composite Micelle Assembly for High-Performance Lithium-Sulfur Batteries.
    Fang Y, Yao Y, Yang H, Fan Y, Nomura N, Zhou W, Ni D, Li X, Jiang W, Qiu P, Luo W.
    ACS Appl Mater Interfaces; 2021 Aug 18; 13(32):38604-38612. PubMed ID: 34369139
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  • 53. Porous nitrogen-doped carbon nanofibers assembled with nickel nanoparticles for lithium-sulfur batteries.
    Li Q, Guo J, Zhao J, Wang C, Yan F.
    Nanoscale; 2019 Jan 03; 11(2):647-655. PubMed ID: 30565632
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  • 54. Enhanced lithium host performance of multi-walled carbon nanotubes through acidic functionalization for lithium-sulfur batteries.
    Kim GH, Raza A, Lee YJ, Kim D, Park JW, Choi HY.
    Heliyon; 2024 Aug 30; 10(16):e35969. PubMed ID: 39224393
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  • 55. Biomass-derived, activated carbon-sulfur composite cathode with a bifunctional interlayer of functionalized carbon nanotubes for lithium-sulfur cells.
    Manoj M, Muhamed Ashraf C, Jasna M, Anilkumar KM, Jinisha B, Pradeep VS, Jayalekshmi S.
    J Colloid Interface Sci; 2019 Feb 01; 535():287-299. PubMed ID: 30316115
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  • 56. An individual sandwich hybrid nanostructure of cobalt disulfide in-situ grown on N doped carbon layer wrapped on multi-walled carbon nanotubes for high-efficiency lithium sulfur batteries.
    Lin Y, Ouyang Z, He S, Song X, Luo Y, Zhao J, Xiao Y, Lei S, Yuan C, Cheng B.
    J Colloid Interface Sci; 2022 Mar 15; 610():560-572. PubMed ID: 34838317
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  • 57. Rationally designing a Ti3C2Tx/CNTs-Co9S8 heterostructure as a sulfur host with multi-functionality for high-performance lithium-sulfur batteries.
    Xiao T, Zhang Y, Xi W, Wang R, Gong Y, He B, Wang H, Jin J.
    Nanoscale; 2022 Nov 10; 14(43):16139-16147. PubMed ID: 36259988
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  • 58. Three-dimensionally ordered macro/mesoporous TiO2 matrix to immobilize sulfur for high performance lithium/sulfur batteries.
    Liang C, Zhang X, Zhao Y, Tan T, Zhang Y, Bakenov Z.
    Nanotechnology; 2018 Oct 12; 29(41):415401. PubMed ID: 30036189
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