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Keyword [high rate]
Result: 101 - 120 | Page: 6 of 7
101. Study On The Preparation And Modification Of High Rate Performance Lithium Iron Phosphate Cathode Material
102. Study On Design And Sodium Storage Performance Of Carbon-coated NaTi2(PO43 Mesoporous Microflowers
103. Structure Modulation And Electrochemical Performance Of P2-phase Manganese-based Cathode Material For Sodium-ion Batteries
104. Preparation And Modification Of LiNi0.5Co0.2Mn0.3O2 Cathode Materials With Long Life-span And High Rate Performance For Lithium-ion Batteries
105. Preparation Of Na3(VOPO42F Electrode Materials And The Application On Energy Storage Devices
106. Effect Of Layered Porous Ni Structure On The Low-temperature Performance Of Hydrogen Storage Alloys
107. Modification Of Lithium Iron Phosphate Cathode Material Synthesized By Using A New Iron Source
108. Study On Modification Of PVDF-HFP Membrane In Lithium-ion Battery
109. Study On Internal Thermal Strain Characteristics Of Lithium Batteries At High C Rates Under Low Temperature
110. Structure Modulation And Electrochemical Performance Of P2-phase Manganese-based Cathode Material For Sodium-ion Batteries
111. Designation And Electrochemical Investigation Of High-performance Titanium-based Anode Materials
112. Research On Liquid Cooling Thermal Management System Of Li-ion Battery Module For Electric Vehicle
113. Research On Mesoporous Metal Oxides As Anode Materials For High-rate Lithium Ion Batteries
114. Preparation And Performance Study Of Multi-element Nanoporous Metal/oxide Composite Electrode
115. High-rate Lithium-rich Manganese Li1.2Ni0.25Mn0.55-xCoxO2Research On Preparation And Modification
116. Synthesis and characterization of cathode materials for high energy density and high rate capability lithium-ion rechargeable batteries
117. ALD processes and applications to nanostructured electrochemical energy storage deveces
118. Evaluation of the approximations involved in analyzing high rate shear experiments of brain tissue using finite element analysis
119. Improved positive electrode materials for lithium-ion batteries: Exploring the high specific capacity of lithium cobalt oxide and the high rate capability of lithium iron phosphate
120. Electrochemical Study of Hollow Carbon Nanospheres as High-Rate and Low Temperature Negative Electrodes for Lithium Ion Batteries
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