Fluorinated microporous carbon spheres for Li/CF batteries with high volumetric energy density

[1]  Cong Peng,et al.  Defective Nano-Structure Regulating C-F Bond for Lithium/Fluorinated Carbon Batteries with Dual High-Performance , 2022, SSRN Electronic Journal.

[2]  Yiyu Feng,et al.  The Fluorination of Boron‐Doped Graphene for CFx Cathode with Ultrahigh Energy Density , 2022, ENERGY & ENVIRONMENTAL MATERIALS.

[3]  Jinhyuk Lee,et al.  Research Progress in Lithium‐Excess Disordered Rock‐Salt Oxides Cathode , 2022, ENERGY & ENVIRONMENTAL MATERIALS.

[4]  Shichao Wu,et al.  Solid-state lithium batteries: Safety and prospects , 2022, eScience.

[5]  Yunlong Zhao,et al.  Low‐strain TiP2O7 with three‐dimensional ion channels as long‐life and high‐rate anode material for Mg‐ion batteries , 2022, Interdisciplinary Materials.

[6]  N. Mahmood,et al.  Pushing Capacities and Energy Densities Beyond Theoretical Limits of Lithium Primary Batteries Using Active Cfx Nanocapsules with X > 1 , 2022, SSRN Electronic Journal.

[7]  Yifan Liu,et al.  Constructing carbon-decorated CFx nanocapsule by atomic layer deposition and catalytic chemical vapor deposition for high-capacity lithium primary battery , 2022, Applied Surface Science.

[8]  Yongyao Xia,et al.  An all-climate CFx/Li battery with mechanism-guided electrolyte , 2021 .

[9]  Yu Li,et al.  Recent Advances in Fluorinated Graphene from Synthesis to Applications: Critical Review on Functional Chemistry and Structure Engineering , 2021, Advanced materials.

[10]  Zi-qiang Xu,et al.  Surface De-Fluorination and Bond Modification of CFx by High-Density Hydrogen Plasma Processing , 2021, ACS Applied Energy Materials.

[11]  Yu Li,et al.  Strategies to Solve Lithium Battery Thermal Runaway: From Mechanism to Modification , 2021, Electrochemical Energy Reviews.

[12]  Yan Yu,et al.  Advances in metal phosphides for sodium‐ion batteries , 2021, SusMat.

[13]  Jiachun Lu,et al.  The electrochemical performance of fluorinated ketjenblack as a cathode for lithium/fluorinated carbon batteries , 2021, RSC advances.

[14]  Y. Mai,et al.  Electrospinning Engineering Enables High-Performance Sodium-Ion Batteries , 2021, Advanced Fiber Materials.

[15]  Pengyu Chen,et al.  Fluorinated Carbons as Rechargeable Li-Ion Battery Cathodes in the Voltage Window of 0.5-4.8 V. , 2021, ACS applied materials & interfaces.

[16]  S. Xie,et al.  Ultrafast Li/Fluorinated Graphene Primary Batteries with High Energy Density and Power Density. , 2021, ACS applied materials & interfaces.

[17]  Jianyu Huang,et al.  Accordion-Like Fluorinated Graphite Nanosheets with High Power and Energy Densities for Wide-Temperature, Long Shelf-Life Sodium/Potassium Primary Batteries. , 2021, Small.

[18]  Yixiao Li,et al.  Fluorinated graphite nanosheets for ultrahigh-capacity lithium primary batteries , 2021, Rare Metals.

[19]  Y. Mai,et al.  Functionalized N-doped hollow graphitic carbon-nanotube/carbon -nanosphere composite , 2021 .

[20]  Yiyu Feng,et al.  Fluorinated graphene nanoribbons from unzipped single-walled carbon nanotubes for ultrahigh energy density lithium-fluorinated carbon batteries , 2021, Science China Materials.

[21]  Y. Peng,et al.  Air Plasma-Induced Carbon Fluoride Enabling Active C-F Bonds for Double-High Energy/Power Densities of Li/CF x Primary Battery , 2021, SSRN Electronic Journal.

[22]  Chao Liu,et al.  A MOF-derived multifunctional nano-porous fluorinated carbon for high performance lithium/fluorinated carbon primary batteries , 2021 .

[23]  Yizhong Huang,et al.  Highly Stable and Ultrahigh-Rate Li Metal Anode Enabled by Fluorinated Carbon Fibers. , 2020, Small.

[24]  Weifeng Wei,et al.  Reaction Mechanism and Structural Evolution of Fluorographite Cathodes in Solid‐State K/Na/Li Batteries , 2020, Advanced materials.

[25]  Yiyu Feng,et al.  The electrochemical performances of fluorinated hard carbon as the cathode of lithium primary batteries , 2020 .

[26]  Yanli Hu,et al.  Nitrogen-enriched carbon nanofibers with tunable semi-ionic CF bonds as a stable long cycle anode for sodium-ion batteries. , 2020, Journal of colloid and interface science.

[27]  Xiaobei Zang,et al.  Recent advances in fluorine-doped/fluorinated carbon-based materials for supercapacitors , 2020 .

[28]  Biao Yang,et al.  First-principles study of the adsorption behaviors of Li atoms and LiF on the CFx (x = 1.0, 0.9, 0.8, 0.5, ∼0.0) surface , 2020, RSC advances.

[29]  Y. Mai,et al.  Electrospinning‐Based Strategies for Battery Materials , 2020, Advanced Energy Materials.

[30]  Hong Li,et al.  Electrolyte-assisted dissolution-recrystallization mechanism towards high energy density and power density CF cathodes in potassium cell , 2020 .

[31]  Yutao Li,et al.  Li metal deposition and stripping in a solid-state battery via Coble creep , 2020, Nature.

[32]  A. Kuwabara,et al.  Microscopic characterization of the C–F bonds in fluorine–graphite intercalation compounds , 2020, Journal of Power Sources.

[33]  Hongjian Li,et al.  Enhanced capacitance characteristic of microporous carbon spheres through surface modification by oxygen-containing groups , 2019 .

[34]  Yiyu Feng,et al.  Ultrahigh-energy-density fluorinated calcinated macadamia nut shell cathodes for lithium/fluorinated carbon batteries , 2019, Carbon.

[35]  Wei Weng,et al.  Electrospun carbon nanofiber-based composites for lithium-ion batteries: Structure optimization towards high performance , 2019, Composites Communications.

[36]  Qiaobao Zhang,et al.  Insights into the lithiation mechanism of CFx by a joint high-resolution 19F NMR, in situ TEM and 7Li NMR approach , 2019, Journal of Materials Chemistry A.

[37]  Yiyu Feng,et al.  Nitrogen and fluorine co-doped holey graphene hydrogel as a binder-free electrode material for flexible solid-state supercapacitors , 2019, Sustainable Energy & Fuels.

[38]  Hong Wang,et al.  A brief review for fluorinated carbon: synthesis, properties and applications , 2019, Nanotechnology Reviews.

[39]  Huixin Chen,et al.  High-Power-Density, High-Energy-Density Fluorinated Graphene for Primary Lithium Batteries , 2018, Front. Chem..

[40]  Kaiyou Zhang,et al.  Hydrothermal synthesis and electrochemical performance of CuS@Sisal fiber carbon composite Lithium- ion battery anodes , 2018 .

[41]  M. Dubois,et al.  High energy density of primary lithium batteries working with sub-fluorinated few walled carbon nanotubes cathode , 2017 .

[42]  Raghu Raman Rajagopal,et al.  Synthesis of glass fiber-nano silicon carbide composite by using waste printed circuit boards and compact discs as resources , 2017 .

[43]  S. Hirano,et al.  Graphite fluoride as a cathode material for primary magnesium batteries with high energy density , 2016 .

[44]  Yiyu Feng,et al.  Two‐Dimensional Fluorinated Graphene: Synthesis, Structures, Properties and Applications , 2016, Advanced science.

[45]  Yiyu Feng,et al.  Nitrogen and fluorine co-doped graphene as a high-performance anode material for lithium-ion batteries , 2015 .

[46]  Wei Zhang,et al.  Pushing the theoretical limit of Li–CFx batteries using fluorinated nanostructured carbon nanodiscs , 2015 .

[47]  F. Ding,et al.  A novel dimethyl sulfoxide/1,3-dioxolane based electrolyte for lithium/carbon fluorides batteries with a high discharge voltage plateau , 2015 .

[48]  W. Feng,et al.  The tunable electrochemical performances of carbon fluorides/manganese dioxide hybrid cathodes by their arrangements , 2015 .

[49]  Jin-Cheng Zheng,et al.  Surface modified CFx cathode material for ultrafast discharge and high energy density , 2014 .

[50]  M. Fichtner,et al.  Improving the energy density and power density of CFx by mechanical milling: a primary lithium battery electrode. , 2013, ACS applied materials & interfaces.

[51]  Yiyu Feng,et al.  Deeply fluorinated multi-wall carbon nanotubes for high energy and power densities lithium/carbon fluorides battery , 2013 .

[52]  M. Dubois,et al.  Applicative performances of fluorinated carbons through fluorination routes: A review , 2012 .

[53]  Wei Zhang,et al.  Tuning the discharge potential of fluorinated carbon used as electrode in primary lithium battery , 2012 .

[54]  J. Read,et al.  LiF Formation and Cathode Swelling in the Li/CFx Battery , 2011 .

[55]  Jeffrey Read,et al.  Carbothermal treatment for the improved discharge performance of primary Li/CFx battery , 2009 .

[56]  Shengbo Zhang,et al.  Electrochemical characteristic and discharge mechanism of a primary Li/CFx cell , 2009 .

[57]  R. Yazami,et al.  Fluorinated carbon nanofibres for high energy and high power densities primary lithium batteries , 2007 .

[58]  G. Amatucci,et al.  Fluoride based electrode materials for advanced energy storage devices , 2007 .

[59]  Craig L. Schmidt,et al.  Hybrid cathode lithium batteries for implantable medical applications , 2006 .

[60]  Esther S. Takeuchi,et al.  Dual-chemistry cathode system for high-rate pulse applications , 2005 .