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Journal Abstract Search

246 related items for PubMed ID: 31609529

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  • 2. Crosslinking Nanoarchitectonics of Nitrogen-doped Carbon/MoS2 Nanosheets/Ti3 C2 Tx MXene Hybrids for Highly Reversible Sodium Storage.
    Li J, Tang S, Li Z, Wang C, Li J, Li X, Ding Z, Pan L.
    ChemSusChem; 2021 Dec 06; 14(23):5293-5303. PubMed ID: 34582117
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  • 3. A Hybrid Assembly of MXene with NH2 -Si Nanoparticles Boosting Lithium Storage Performance.
    Cui Y, Wang J, Wang X, Qin J, Cao M.
    Chem Asian J; 2020 Apr 17; 15(8):1376-1383. PubMed ID: 32147966
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  • 4. Two Birds with One Stone: Prelithiated Two-Dimensional Nanohybrids as High-Performance Anode Materials for Lithium-Ion Batteries.
    Wei S, Fu Y, Roy P, Tong X, Yue H, Liu M, Jaiswal HN, Shahi S, Gata YI, Butler T, Li H, Jia Q, Yao F.
    ACS Appl Mater Interfaces; 2022 Aug 10; 14(31):35673-35681. PubMed ID: 35913052
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  • 7. Nitrogen plasma-induced phase engineering and titanium carbide/carbon nanotubes dual conductive skeletons endow molybdenum disulfide with significantly improved lithium storage performance.
    Xin D, He S, Zhang X, Li R, Qiang W, Duan S, Lou Q, Cheng Z, Xia M.
    J Colloid Interface Sci; 2025 Jan 15; 678(Pt C):704-716. PubMed ID: 39307059
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  • 8. Construction of hierarchical V4C3-MXene/MoS2/C nanohybrids for high rate lithium-ion batteries.
    Bai J, Zhao B, Lin S, Li K, Zhou J, Dai J, Zhu X, Sun Y.
    Nanoscale; 2020 Jan 02; 12(2):1144-1154. PubMed ID: 31850436
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  • 9. Carbon-Reinforced Nb2CTx MXene/MoS2 Nanosheets as a Superior Rate and High-Capacity Anode for Sodium-Ion Batteries.
    Yuan Z, Wang L, Li D, Cao J, Han W.
    ACS Nano; 2021 Apr 27; 15(4):7439-7450. PubMed ID: 33754716
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  • 10. Recent Advances in Layered Ti3 C2 Tx MXene for Electrochemical Energy Storage.
    Xiong D, Li X, Bai Z, Lu S.
    Small; 2018 Apr 27; 14(17):e1703419. PubMed ID: 29399994
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  • 12. Various Structured Molybdenum-based Nanomaterials as Advanced Anode Materials for Lithium ion Batteries.
    Wu Z, Lei W, Wang J, Liu R, Xia K, Xuan C, Wang D.
    ACS Appl Mater Interfaces; 2017 Apr 12; 9(14):12366-12372. PubMed ID: 28326766
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  • 13. Electrostatic Self-assembly of 0D-2D SnO2 Quantum Dots/Ti3C2Tx MXene Hybrids as Anode for Lithium-Ion Batteries.
    Liu H, Zhang X, Zhu Y, Cao B, Zhu Q, Zhang P, Xu B, Wu F, Chen R.
    Nanomicro Lett; 2019 Aug 02; 11(1):65. PubMed ID: 34138001
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  • 14. 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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  • 15. Hierarchical Nanotubes Constructed by Co9 S8 /MoS2 Ultrathin Nanosheets Wrapped with Reduced Graphene Oxide for Advanced Lithium Storage.
    Liu Y, Geng H, Ang EH, Cao X, Zheng J, Gu H.
    Chem Asian J; 2019 Jan 04; 14(1):170-176. PubMed ID: 30548195
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  • 16. Self-Assembled Framework Formed During Lithiation of SnS2 Nanoplates Revealed by in Situ Electron Microscopy.
    Yin K, Zhang M, Hood ZD, Pan J, Meng YS, Chi M.
    Acc Chem Res; 2017 Jul 18; 50(7):1513-1520. PubMed ID: 28682057
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  • 17. All-MXene-Based Integrated Electrode Constructed by Ti3C2 Nanoribbon Framework Host and Nanosheet Interlayer for High-Energy-Density Li-S Batteries.
    Dong Y, Zheng S, Qin J, Zhao X, Shi H, Wang X, Chen J, Wu ZS.
    ACS Nano; 2018 Mar 27; 12(3):2381-2388. PubMed ID: 29455522
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  • 18. Vertically Grown Few-Layer MoS2 Nanosheets on Hierarchical Carbon Nanocages for Pseudocapacitive Lithium Storage with Ultrahigh-Rate Capability and Long-Term Recyclability.
    Liu M, Fan H, Zhuo O, Du X, Yang L, Wang P, Yang L, Wu Q, Wang X, Hu Z.
    Chemistry; 2019 Mar 12; 25(15):3843-3848. PubMed ID: 30623496
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  • 20. A Fast Charge/Discharge and Wide-Temperature Battery with a Germanium Oxide Layer on a Ti3C2 MXene Matrix as Anode.
    Shang M, Chen X, Li B, Niu J.
    ACS Nano; 2020 Mar 24; 14(3):3678-3686. PubMed ID: 32078306
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