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Journal Abstract Search

133 related items for PubMed ID: 38035415

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  • 2. Hierarchical architecture of two-dimensional Ti3C2 nanosheets@Metal-Organic framework derivatives as anode for hybrid li-ion capacitors.
    Wu W, Zhao C, Liu H, Liu T, Wang L, Zhu J.
    J Colloid Interface Sci; 2022 Oct; 623():216-225. PubMed ID: 35576651
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  • 3. 3D Porous Ti3C2 MXene/NiCo-MOF Composites for Enhanced Lithium Storage.
    Liu Y, He Y, Vargun E, Plachy T, Saha P, Cheng Q.
    Nanomaterials (Basel); 2020 Apr 07; 10(4):. PubMed ID: 32272560
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  • 4. Synthesis of three-dimensional Sn@Ti3C2 by layer-by-layer self-assembly for high-performance lithium-ion storage.
    Wang Z, Bai J, Xu H, Chen G, Kang S, Li X.
    J Colloid Interface Sci; 2020 Oct 01; 577():329-336. PubMed ID: 32485414
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  • 5. Confinement Growth of Layered WS2 in Hollow Beaded Carbon Nanofibers with Synergistic Anchoring Effect to Reinforce Li+ /Na+ Storage Performance.
    Wu H, Chen X, Qian C, Yan H, Yan C, Xu N, Piao Y, Diao G, Chen M.
    Small; 2020 Jul 01; 16(26):e2000695. PubMed ID: 32500673
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  • 8. Hierarchical Nanocomposite of Hollow N-Doped Carbon Spheres Decorated with Ultrathin WS2 Nanosheets for High-Performance Lithium-Ion Battery Anode.
    Zeng X, Ding Z, Ma C, Wu L, Liu J, Chen L, Ivey DG, Wei W.
    ACS Appl Mater Interfaces; 2016 Jul 27; 8(29):18841-8. PubMed ID: 27381381
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  • 9. Nitrogen-Doped Carbon Coated WS2 Nanosheets as Anode for High-Performance Sodium-Ion Batteries.
    Liu Y, Wei H, Wang C, Wang F, Wang H, Zhang W, Wang X, Yan C, Kim BH, Ren F.
    Front Chem; 2018 Jul 27; 6():236. PubMed ID: 30191147
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  • 10. Preparation of WSi@SiOx/Ti3C2 from photovoltaic silicon waste as high-performance anode materials for lithium-ion batteries.
    Niu Y, Wei M, Xi F, Li S, Ma W, Wang L, Li H, Lu J, Chen X, Wei K, Luo B.
    iScience; 2024 Sep 20; 27(9):110714. PubMed ID: 39262810
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  • 11. Enhancing the Capacity and Stability of a Tungsten Disulfide Anode in a Lithium-Ion Battery Using Excess Sulfur.
    Chang U, Eom K.
    ACS Appl Mater Interfaces; 2021 May 05; 13(17):20213-20221. PubMed ID: 33891412
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  • 12. Improved Lithium-Ion and Sodium-Ion Storage Properties from Few-Layered WS2 Nanosheets Embedded in a Mesoporous CMK-3 Matrix.
    Pang Q, Gao Y, Zhao Y, Ju Y, Qiu H, Wei Y, Liu B, Zou B, Du F, Chen G.
    Chemistry; 2017 May 23; 23(29):7074-7080. PubMed ID: 28374501
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  • 13. Atomic-Scale Laminated Structure of O-Doped WS2 and Carbon Layers with Highly Enhanced Ion Transfer for Fast-Charging Lithium-Ion Batteries.
    Li Z, Yuan F, Han M, Yu J.
    Small; 2022 Jul 23; 18(27):e2202495. PubMed ID: 35670146
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  • 14. Improved Electrochemical Performance of NTs-WS2@C Nanocomposites for Lithium-Ion and Sodium-Ion Batteries.
    Wei S, Serra M, Mourdikoudis S, Zhou H, Wu B, Děkanovský L, Šturala J, Luxa J, Tenne R, Zak A, Sofer Z.
    ACS Appl Mater Interfaces; 2022 Oct 19; 14(41):46386-46400. PubMed ID: 36206403
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  • 15. WS2-Graphene van der Waals Heterostructure as Promising Anode Material for Lithium-Ion Batteries: A First-Principles Approach.
    Bijoy TK, Sudhakaran S, Lee SC.
    ACS Omega; 2024 Feb 13; 9(6):6482-6491. PubMed ID: 38371824
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  • 20. Self-supporting 1T-MoS2@WS2@CC composite materials for potential high-capacity sodium storage system.
    Dong Z, Wu X, Chen M, Chen H, Huang KJ, Wang L, Xu J.
    J Colloid Interface Sci; 2023 Jan 15; 630(Pt B):426-435. PubMed ID: 36334479
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