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Subject Areas :
1 - mazandaran
Keywords: -,
Abstract :
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References:
[1] Wan Z., et al., "Low Resistance–integrated all‐solid‐state Battery Achieved by Li7La3Zr2O12 Nanowire Upgrading Polyethylene Oxide (PEO) Composite Electrolyte and PEO Cathode Binder," Advanced Functional Materials., 29, 1805301, 2019.
[2] Yang M., and Hou J., "Membranes in Lithium ion Batteries," Membranes, 2, 367-383, 2012.
[3] Liu W., et al., "Enhancing Ionic Conductivity in Composite Polymer Electrolytes with Well-aligned Ceramic Nanowires," Nature energy, 2, 1-7, 2017.
[4] Zhu L., Zhu P., Yao S., Shen X., and Tu F., "High‐performance Solid PEO/PPC/LLTO‐nanowires Polymer Composite Electrolyte for Solid‐state Lithium Battery," International Journal of Energy Research, 43, 4854-4866, 2019.
[5] Liu J., Wu X., He J., Li J., and Lai Y., ’’Preparation and Performance of a Novel Gel Polymer Electrolyte Based on Poly (Vinylidene Fluoride)/Graphene Separator for Lithium ion Battery," Electrochimica Acta, 235, 500-507, 2017.
[6] Long L., Wang S., Xiao M., and Meng Y., "Polymer Electrolytes for Lithium Polymer Batteries," Journal of Materials Chemistry A, 4, 10038-10069, 2016.
[7] Kammoun M., Berg S., and Ardebili H., "Flexible Thin-film Battery Based on Graphene-oxide Embedded in Solid Polymer Electrolyte," Nanoscale, 7, 41, 17516-17522, 2015.
[8] Zhang S.S., "A Review on the Separators of Liquid Electrolyte Li-ion Batteries," Journal of power sources, 164, pp. 351-364, 2007.
[9] Kang G.d., and Cao Y.m., "Application and Modification of Poly (Vinylidene Fluoride)(PVDF) Membranes–a Review," Journal of Membrane Science, 463, 145-165, 2014.
[10] Raghavan P., et al., "Electrochemical Performance of Electrospun Poly (Vinylidene Fluoride-co-Hexafluoropropylene)-based Nanocomposite Polymer Electrolytes Incorporating Ceramic Fillers and Room Temperature Ionic Liquid," Electrochimica Acta, 55, 1347-1354, 2010.
[11] Zhu Y., et al., "Modification and Characterization of Electrospun Poly (Vinylidene Fluoride)/Poly (Acrylonitrile) Blend Separator Membranes," Composites Part B: Engineering, 112, 31-37, 2017.
[12] Iijima T., Toyoguchi Y., and Eda N., "Quasi-solid Organic Electrolytes Gelatinized with Polymethyl-methacrylate and their Applications for Lithium Batteries," Denki Kagaku, 53, 8, 619-623, 1985.
[13] Elashmawi I., Alatawi N. S., and Elsayed N. H., "Preparation and Characterization of Polymer Nanocomposites Based on PVDF/PVC Doped with Graphene Nanoparticles," Results in physics, 7, 636-640, 2017.
[14] Abasipour M., Khajavi R., Yousefi A.A., M. Yazdanshenas I., and Razaghian F., "Different Methods of Changing Piezoelectric Properties in Poly (Vinylidene Fluoride): A Review," 2019.
[15] Jin C., et al., "Metal Oxide Nanoparticles Induced Step-edge Nucleation of Stable Li Metal Anode Working Under an Ultrahigh Current Density of 15 mA cm− 2," Nano Energy, 45, 203-209, 2018.
[16] Zhu Y., Wang F., Liu L., Xiao S., Chang Z., and Wu Y., "Composite of a Nonwoven Fabric with Poly (Vinylidene Fluoride) as a Gel Membrane of high Safety for Lithium ion Battery," Energy & Environmental Science, 6, 2, 618-624, 2013.
[17] ناجی، فولادوند، مارال، جوانبخت، مهران، "بررسی عملکرد الکترولیتهای پلیمری بر پایه پلیوینیلیدن فلوئورید (PVDF) در باتریهاییون لیتیم," فصلنامه علمی بسپارش، 2، 26-15، 1398.
[18] Zhang P., Yang L., Li L., M. Ding., Wu Y., and Holze R., "Enhanced Electrochemical and Mechanical Properties of P (VDF-HFP)-based Composite Polymer Electrolytes with SiO2 Nanowires," Journal of Membrane Science, 379, 80-85, 2011.
[19] Liu W., et al., "Ionic Conductivity Enhancement of Polymer Electrolytes with Ceramic Nanowire Fillers," Nano letters, 15, 2740-2745, 2015.
[20] Lupu N., Nanowires: Science and Technology. BoD–Books on Demand, 2010.
[21] Cao G., Nanostructures & Nanomaterials:Synthesis, Properties & Applications. Imperial College Press, 2004.
[22] Liu Y., et al., "Metal or Metal-Containing Nanoparticle@ MOF Nanocomposites as a Promising Type of Photocatalyst," Coordination Chemistry Reviews, 388, 63-78, 2019.
[23] Kwon S.J., et al., "Influence of Al2O3 Nanowires on ion Transport in Nanocomposite Solid Polymer Electrolytes," Macromolecules, 51, pp. 10194-10201, 2018.
[24] Yoo H., et al., "Si Nanocrystal-Embedded SiO x Nanofoils: Two-Dimensional Nanotechnology-Enabled High Performance Li Storage Materials," Scientific Reports, 8, 1-9, 2018.
[25] Sun Y., Guan P., Liu Y., Xu H., Li S., and Chu D., "Recent Progress in Lithium Lanthanum Titanate Electrolyte towards All Solid-State Lithium Ion Secondary Battery," Critical Reviews in Solid State and Materials Sciences, 44, 265-282, 2019.
[26] Yang T., Li Y., and Chan C.K., "Enhanced Lithium ion Conductivity in Lithium Lanthanum Titanate Solid Electrolyte Nanowires Prepared by Electrospinning," Journal of Power Sources, 287, 164-169, 2015.
[27] Yang H., et al., "Chemical Interaction and Enhanced Interfacial ion Transport in a Ceramic Nanofiber–Polymer Composite Electrolyte for all-solid-state Lithium Metal Batteries," Journal of Materials Chemistry A, 8, 7261-7272, 2020.
[1] Wan Z., et al., "Low Resistance–integrated all‐solid‐state Battery Achieved by Li7La3Zr2O12 Nanowire Upgrading Polyethylene Oxide (PEO) Composite Electrolyte and PEO Cathode Binder," Advanced Functional Materials., 29, 1805301, 2019.
[2] Yang M., and Hou J., "Membranes in Lithium ion Batteries," Membranes, 2, 367-383, 2012.
[3] Liu W., et al., "Enhancing Ionic Conductivity in Composite Polymer Electrolytes with Well-aligned Ceramic Nanowires," Nature energy, 2, 1-7, 2017.
[4] Zhu L., Zhu P., Yao S., Shen X., and Tu F., "High‐performance Solid PEO/PPC/LLTO‐nanowires Polymer Composite Electrolyte for Solid‐state Lithium Battery," International Journal of Energy Research, 43, 4854-4866, 2019.
[5] Liu J., Wu X., He J., Li J., and Lai Y., ’’Preparation and Performance of a Novel Gel Polymer Electrolyte Based on Poly (Vinylidene Fluoride)/Graphene Separator for Lithium ion Battery," Electrochimica Acta, 235, 500-507, 2017.
[6] Long L., Wang S., Xiao M., and Meng Y., "Polymer Electrolytes for Lithium Polymer Batteries," Journal of Materials Chemistry A, 4, 10038-10069, 2016.
[7] Kammoun M., Berg S., and Ardebili H., "Flexible Thin-film Battery Based on Graphene-oxide Embedded in Solid Polymer Electrolyte," Nanoscale, 7, 41, 17516-17522, 2015.
[8] Zhang S.S., "A Review on the Separators of Liquid Electrolyte Li-ion Batteries," Journal of power sources, 164, pp. 351-364, 2007.
[9] Kang G.d., and Cao Y.m., "Application and Modification of Poly (Vinylidene Fluoride)(PVDF) Membranes–a Review," Journal of Membrane Science, 463, 145-165, 2014.
[10] Raghavan P., et al., "Electrochemical Performance of Electrospun Poly (Vinylidene Fluoride-co-Hexafluoropropylene)-based Nanocomposite Polymer Electrolytes Incorporating Ceramic Fillers and Room Temperature Ionic Liquid," Electrochimica Acta, 55, 1347-1354, 2010.
[11] Zhu Y., et al., "Modification and Characterization of Electrospun Poly (Vinylidene Fluoride)/Poly (Acrylonitrile) Blend Separator Membranes," Composites Part B: Engineering, 112, 31-37, 2017.
[12] Iijima T., Toyoguchi Y., and Eda N., "Quasi-solid Organic Electrolytes Gelatinized with Polymethyl-methacrylate and their Applications for Lithium Batteries," Denki Kagaku, 53, 8, 619-623, 1985.
[13] Elashmawi I., Alatawi N. S., and Elsayed N. H., "Preparation and Characterization of Polymer Nanocomposites Based on PVDF/PVC Doped with Graphene Nanoparticles," Results in physics, 7, 636-640, 2017.
[14] Abasipour M., Khajavi R., Yousefi A.A., M. Yazdanshenas I., and Razaghian F., "Different Methods of Changing Piezoelectric Properties in Poly (Vinylidene Fluoride): A Review," 2019.
[15] Jin C., et al., "Metal Oxide Nanoparticles Induced Step-edge Nucleation of Stable Li Metal Anode Working Under an Ultrahigh Current Density of 15 mA cm− 2," Nano Energy, 45, 203-209, 2018.
[16] Zhu Y., Wang F., Liu L., Xiao S., Chang Z., and Wu Y., "Composite of a Nonwoven Fabric with Poly (Vinylidene Fluoride) as a Gel Membrane of high Safety for Lithium ion Battery," Energy & Environmental Science, 6, 2, 618-624, 2013.
[17] ناجی، فولادوند، مارال، جوانبخت، مهران، "بررسی عملکرد الکترولیتهای پلیمری بر پایه پلیوینیلیدن فلوئورید (PVDF) در باتریهاییون لیتیم," فصلنامه علمی بسپارش، 2، 26-15، 1398.
[18] Zhang P., Yang L., Li L., M. Ding., Wu Y., and Holze R., "Enhanced Electrochemical and Mechanical Properties of P (VDF-HFP)-based Composite Polymer Electrolytes with SiO2 Nanowires," Journal of Membrane Science, 379, 80-85, 2011.
[19] Liu W., et al., "Ionic Conductivity Enhancement of Polymer Electrolytes with Ceramic Nanowire Fillers," Nano letters, 15, 2740-2745, 2015.
[20] Lupu N., Nanowires: Science and Technology. BoD–Books on Demand, 2010.
[21] Cao G., Nanostructures & Nanomaterials:Synthesis, Properties & Applications. Imperial College Press, 2004.
[22] Liu Y., et al., "Metal or Metal-Containing Nanoparticle@ MOF Nanocomposites as a Promising Type of Photocatalyst," Coordination Chemistry Reviews, 388, 63-78, 2019.
[23] Kwon S.J., et al., "Influence of Al2O3 Nanowires on ion Transport in Nanocomposite Solid Polymer Electrolytes," Macromolecules, 51, pp. 10194-10201, 2018.
[24] Yoo H., et al., "Si Nanocrystal-Embedded SiO x Nanofoils: Two-Dimensional Nanotechnology-Enabled High Performance Li Storage Materials," Scientific Reports, 8, 1-9, 2018.
[25] Sun Y., Guan P., Liu Y., Xu H., Li S., and Chu D., "Recent Progress in Lithium Lanthanum Titanate Electrolyte towards All Solid-State Lithium Ion Secondary Battery," Critical Reviews in Solid State and Materials Sciences, 44, 265-282, 2019.
[26] Yang T., Li Y., and Chan C.K., "Enhanced Lithium ion Conductivity in Lithium Lanthanum Titanate Solid Electrolyte Nanowires Prepared by Electrospinning," Journal of Power Sources, 287, 164-169, 2015.
[27] Yang H., et al., "Chemical Interaction and Enhanced Interfacial ion Transport in a Ceramic Nanofiber–Polymer Composite Electrolyte for all-solid-state Lithium Metal Batteries," Journal of Materials Chemistry A, 8, 7261-7272, 2020.
