Ion Flux Regulation through PTFE Nanospheres Impregnated in Glass Fiber Separators for Long‐Lived Lithium and Sodium Metal Batteries

[1]  Wei Chen,et al.  An Ultrathin Nonporous Polymer Separator Regulates Na Transfer Toward Dendrite‐Free Sodium Storage Batteries , 2023, Advanced materials.

[2]  S. Eichhorn,et al.  Stable Sodium‐Metal Batteries in Carbonate Electrolytes Achieved by Bifunctional, Sustainable Separators with Tailored Alignment , 2022, Advanced materials.

[3]  Huolin L. Xin,et al.  Dual Passivation of Cathode and Anode through Electrode–Electrolyte Interface Engineering Enables Long-Lifespan Li Metal–SPAN Batteries , 2022, ACS Energy Letters.

[4]  Huolin L. Xin,et al.  Characterization of the structure and chemistry of the solid–electrolyte interface by cryo-EM leads to high-performance solid-state Li-metal batteries , 2022, Nature Nanotechnology.

[5]  F. Huang,et al.  Interfacial Engineering of Binder-Free Janus Separator with Ultra-Thin Multifunctional Layer for Simultaneous Enhancement of Both Metallic Li Anode and Sulfur Cathode. , 2022, Small.

[6]  Q. Cai,et al.  Atomic‐Scale Design of Anode Materials for Alkali Metal (Li/Na/K)‐Ion Batteries: Progress and Perspectives , 2022, Advanced Energy Materials.

[7]  T. Aida,et al.  Ultrafast water permeation through nanochannels with a densely fluorous interior surface , 2022, Science.

[8]  B. Boyce,et al.  Review of Multifunctional Separators: Stabilizing the Cathode and the Anode for Alkali (Li, Na, and K) Metal-Sulfur and Selenium Batteries. , 2022, Chemical reviews.

[9]  Jingbing Liu,et al.  Anion Immobilization Enabled by Cation‐Selective Separators for Dendrite‐Free Lithium Metal Batteries , 2022, Advanced Functional Materials.

[10]  Zhixin Tai,et al.  Non-collapsing 3D solid-electrolyte interphase for high-rate rechargeable sodium metal batteries , 2022, Nano Energy.

[11]  D. Zhao,et al.  Hierarchically Porous Silica Membrane as Separator for High‐Performance Lithium‐Ion Batteries , 2021, Advanced materials.

[12]  Jang‐Kyo Kim,et al.  NaF-rich Solid Electrolyte Interphase for Dendrite-free Sodium Metal Batteries , 2021, Energy Storage Materials.

[13]  O. Bondarchuk,et al.  Lithium-copper alloy embedded in 3D porous copper foam with enhanced electrochemical performance toward lithium metal batteries , 2021, Materials Today Energy.

[14]  Yan Yu,et al.  Achieving stable Na metal cycling via polydopamine/multilayer graphene coating of a polypropylene separator , 2021, Nature Communications.

[15]  Qiang Zhang,et al.  Ion–solvent chemistry in lithium battery electrolytes: From mono-solvent to multi-solvent complexes , 2021, Fundamental Research.

[16]  Weishan Li,et al.  Artificial interphases enable dendrite-free Li-metal anodes , 2021, Journal of Energy Chemistry.

[17]  Xiangcun Li,et al.  Redistributing Li-ion flux and homogenizing Li-metal growth by N-doped hierarchically porous membranes for dendrite-free Lithium metal batteries , 2021 .

[18]  D. Aurbach,et al.  Alumina thin coat on pre-charged soft carbon anode reduces electrolyte breakdown and maintains sodiation sites active in Na-ion battery – Insights from NMR measurements , 2021 .

[19]  Wenchen Ren,et al.  Recent progress of functional separators in dendrite inhibition for lithium metal batteries , 2021 .

[20]  Yu Ding,et al.  Redistributing Li‐Ion Flux by Parallelly Aligned Holey Nanosheets for Dendrite‐Free Li Metal Anodes , 2020, Advanced materials.

[21]  Jianneng Liang,et al.  Bifunctional composite separator with a solid-state-battery strategy for dendrite-free lithium metal batteries , 2020 .

[22]  M. Armand,et al.  Polyolefin-Based Janus Separator for Rechargeable Sodium Batteries. , 2020, Angewandte Chemie.

[23]  H. Kim,et al.  Nonwoven rGO Fiber‐Aramid Separator for High‐Speed Charging and Discharging of Li Metal Anode , 2020, Advanced Energy Materials.

[24]  Yanwen Ma,et al.  Advanced Current Collectors for Alkali Metal Anodes , 2020, Chemical Research in Chinese Universities.

[25]  Yongsong Luo,et al.  Dendrite-free lithium metal and sodium metal batteries , 2020 .

[26]  Bin Zhu,et al.  A nano-shield design for separators to resist dendrites of lithium metal battery. , 2020, Angewandte Chemie.

[27]  P. Mukherjee,et al.  Mechanistics of Lithium Metal Battery Performance by Separator Architecture Design. , 2019, ACS applied materials & interfaces.

[28]  Yao Zhang,et al.  Alkali-Metal Anodes: From Lab to Market , 2019, Joule.

[29]  Jiaqi Huang,et al.  Recent advances in understanding dendrite growth on alkali metal anodes , 2019, EnergyChem.

[30]  Qi-hou Li,et al.  Preparation and Performance of Porous Polyetherimide/Al 2 O 3 Separator for Enhanced Lithium‐Sulfur Batteries , 2019, ChemElectroChem.

[31]  K. Kubota,et al.  Correlation of carbonization condition with metallic property of sodium clusters formed in hard carbon studied using 23Na nuclear magnetic resonance , 2019, Carbon.

[32]  Stefano Passerini,et al.  Hard carbons for sodium-ion batteries: Structure, analysis, sustainability, and electrochemistry , 2019, Materials Today.

[33]  Lei Fan,et al.  Tuning the LUMO Energy of an Organic Interphase to Stabilize Lithium Metal Batteries , 2019, ACS Energy Letters.

[34]  G. Wang,et al.  A Scalable Approach for Dendrite-Free Alkali Metal Anodes via Room-Temperature Facile Surface Fluorination. , 2019, ACS applied materials & interfaces.

[35]  V. Wood,et al.  Characterization and performance evaluation of lithium-ion battery separators , 2018, Nature Energy.

[36]  D. Aurbach,et al.  NMR-Detected Dynamics of Sodium Co-Intercalation with Diglyme Solvent Molecules in Graphite Anodes Linked to Prolonged Cycling , 2018, The Journal of Physical Chemistry C.

[37]  S. Passerini,et al.  Hybrid electrolytes for lithium metal batteries , 2018, Journal of Power Sources.

[38]  Haiyan Peng,et al.  Grafting Polytetrafluoroethylene Micropowder via in Situ Electron Beam Irradiation-Induced Polymerization , 2018, Polymers.

[39]  Ji‐Guang Zhang,et al.  Extremely Stable Sodium Metal Batteries Enabled by Localized High-Concentration Electrolytes , 2018 .

[40]  P. Balaya,et al.  NaVPO4F with high cycling stability as a promising cathode for sodium-ion battery , 2018 .

[41]  Philippe Moreau,et al.  Mechanism of Silicon Electrode Aging upon Cycling in Full Lithium-Ion Batteries. , 2016, ChemSusChem.

[42]  N. Imanishi,et al.  Lithium Dendrite Formation on a Lithium Metal Anode from Liquid, Polymer and Solid Electrolytes , 2016 .

[43]  Chaoyang Wang,et al.  Cycling degradation of an automotive LiFePO4 lithium-ion battery , 2011 .

[44]  M. Sadiq,et al.  Enhanced Crystallinity of PTFE by Ion Irradiation in a Dense Plasma Focus , 2007 .

[45]  O. Lapina,et al.  1H and 29Si-MAS NMR characterization of silicate fiberglass supports , 2003 .

[46]  G. Hoatson,et al.  Modelling one‐ and two‐dimensional solid‐state NMR spectra , 2002 .

[47]  R. Chambers,et al.  Surface Defluorination of PTFE by Sodium Atoms , 1994 .

[48]  P. Bruce,et al.  Electrochemical measurement of transference numbers in polymer electrolytes , 1987 .