Effective transportation of electrons/Li ions in V2O3 nanoparticle/carbon-coated stainless steel composite electrodes for lithium-ion storage
暂无分享,去创建一个
Huaxia Chen | Jianghua Zhang | Zhongmin Feng | Yaxi Tian | T. Otitoju | Lin Zhu | Tingguang Sun | Honggang Wang
[1] E. Thauer,et al. Hierarchically structured V2O3/C microspheres: Synthesis, characterization, and their electrochemical properties , 2021 .
[2] Jason A. Weeks,et al. Lithium trapping in germanium nanopores during delithiation process , 2021 .
[3] Gong-Ke Wang,et al. 3D flower-like NC@V2O3 constructed by nanoparticles for lithium-ion batteries , 2021 .
[4] Kyung‐Won Park,et al. Enhanced electrochemical performance of a selectively formed V2O3/C composite structure for Li-ion batteries , 2021 .
[5] Gang Chen,et al. Metastable V2O3 Embedded in 2D N-doped Carbon Facilitates Ion Transport for Stable and Ultrafast Sodium-Ion Storage , 2021, Chemical Engineering Journal.
[6] Junwei Ding,et al. In Situ Lattice Tunnel Distortion of Vanadium Trioxide for Enhancing Zinc Ion Storage , 2021, Advanced Energy Materials.
[7] S. Dou,et al. Cation-vacancy induced Li+ intercalation pseudocapacitance at atomically thin heterointerface for high capacity and high power lithium-ion batteries , 2021 .
[8] Zhian Zhang,et al. Encapsulating V2O3 Nanoparticles in Hierarchical Porous Carbon Nanosheets via C-O-V Bonds for Fast and Durable Potassium-Ion Storage. , 2021, ACS applied materials & interfaces.
[9] Taizhong Huang,et al. V2O3 Nanoparticles Confined in High-Conductivity and High-Throughput Carbon Nanofiber Nanohybrids for Advanced Sodium-Ion Capacitors. , 2021, ACS applied materials & interfaces.
[10] Xian-fa Zhang,et al. Facile synthesis of V2O3@N-doped carbon nanosheet arrays on nickel foam as free-standing electrode for high performance lithium ion batteries , 2020 .
[11] Lai Xu,et al. Lithiophilic diffusion barrier layer on stainless steel mesh for dendrite suppression and stable lithium metal anode , 2020 .
[12] Yanglong Hou,et al. Free-Standing, Foldable V2 O3 /Multichannel Carbon Nanofibers Electrode for Flexible Li-Ion Batteries with Ultralong Lifespan. , 2020, Small.
[13] Jian-feng Li,et al. 2D Mesoporous Nanomesh from N-Doped Carbon-Encapsulated V2O3 Nanowires as an Anode for Lithium-Ion Batteries , 2020 .
[14] Youlong Xu,et al. All‐In‐One Stainless‐Steel Mesh Oxide Composites Anode for Flexible Li‐Ion Battery , 2020, Advanced Materials Technologies.
[15] Chun-hua Chen,et al. Hollow sphere structured V2O3@C as an anode material for high capacity potassium-ion batteries , 2020 .
[16] F. Patolsky,et al. Thermally-treated nanowire-structured stainless-steel as an attractive cathode material for lithium-ion batteries , 2020 .
[17] Hongsen Li,et al. Flexible sodium-ion based energy storage devices: Recent progress and challenges , 2020 .
[18] Yang Yang,et al. Nickel‐Catalyzed Synthesis of 3D Edge‐Curled Graphene for High‐Performance Lithium‐Ion Batteries , 2019, Advanced Functional Materials.
[19] F. Kang,et al. NaCl-template-assisted freeze-drying synthesis of 3D porous carbon-encapsulated V2O3 for lithium-ion battery anode , 2019, Electrochimica Acta.
[20] Jin Leng,et al. A multi-shelled V2O3/C composite with an overall coupled carbon scaffold enabling ultrafast and stable lithium/sodium storage , 2019, Journal of Materials Chemistry A.
[21] C. Zhi,et al. Binder-free hierarchical VS2 electrodes for high-performance aqueous Zn ion batteries towards commercial level mass loading , 2019, Journal of Materials Chemistry A.
[22] Xinyue Zhao,et al. One-step solvothermal synthesis of V2O3@C nanoparticles as anode materials for lithium-ion battery , 2019, Journal of Alloys and Compounds.
[23] Lifang Jiao,et al. Binder‐Free Electrodes for Advanced Sodium‐Ion Batteries , 2019, Advanced materials.
[24] Y. Tong,et al. Chemically-modified stainless steel mesh derived substrate-free iron-based composite as anode materials for affordable flexible energy storage devices , 2018, Electrochimica Acta.
[25] Haixia Li,et al. Intercalation pseudocapacitance in flexible and self-standing V2O3 porous nanofibers for high-rate and ultra-stable K ion storage , 2018, Nano Energy.
[26] S. Kitamura,et al. Si-rich phases and their distributions in the oxide scale formed on 304 stainless steel at high temperatures , 2018, Journal of Nuclear Materials.
[27] Guozhao Fang,et al. Binder-free stainless steel@Mn3O4 nanoflower composite: a high-activity aqueous zinc-ion battery cathode with high-capacity and long-cycle-life , 2018 .
[28] F. Liu,et al. Facile template-free synthesis of uniform carbon-confined V2O3 hollow spheres for stable and fast lithium storage , 2018 .
[29] R. Bao,et al. Vanadium trioxide nanowire arrays as a cathode material for lithium-ion battery , 2018 .
[30] Tang Yijian,et al. Dual anode materials for lithium- and sodium-ion batteries , 2018 .
[31] J. Coleman,et al. Liquid exfoliation of interlayer spacing-tunable 2D vanadium oxide nanosheets: High capacity and rate handling Li-ion battery cathodes , 2017 .
[32] Joseph Paul Baboo,et al. Carbon-coated manganese dioxide nanoparticles and their enhanced electrochemical properties for zinc-ion battery applications , 2017 .
[33] Xin-bo Zhang,et al. Transformation of Rusty Stainless-Steel Meshes into Stable, Low-Cost, and Binder-Free Cathodes for High-Performance Potassium-Ion Batteries. , 2017, Angewandte Chemie.
[34] Dong Zhang,et al. Flexible V2O3/carbon nano-felts as free-standing electrode for high performance lithium ion batteries , 2017 .
[35] Jun Lu,et al. Depolarization effect to enhance the performance of lithium ions batteries , 2017 .
[36] B. Chowdari,et al. Metal oxides and oxysalts as anode materials for Li ion batteries. , 2013, Chemical reviews.
[37] Stefan Grimme,et al. Semiempirical GGA‐type density functional constructed with a long‐range dispersion correction , 2006, J. Comput. Chem..
[38] G. Kresse,et al. From ultrasoft pseudopotentials to the projector augmented-wave method , 1999 .
[39] Hafner,et al. Ab initio molecular dynamics for open-shell transition metals. , 1993, Physical review. B, Condensed matter.