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Keyword [First-principles study]
Result: 81 - 100 | Page: 5 of 6
81. The Structures,Electronic Structures And Na-ion Diffusion Dynamics In Mn-Based Cathode Materials For Na-ion Batteries:A First-principles Study
82. LiAl5O8 As A Potential Coating Material In Lithium-ion Battery:A First Principles Study
83. First-Principles Study On The Effect Of Electron Doping On The Mechanical Properties Of Lithium Ion Battery Electrode Materials
84. Ferroelectric Control Of Single-molecule Magnetism In 2D Limit:A First Principles Study
85. First-Principles Study On Modified MoO2 As The Anode Material For Lithium-Ion Batteries
86. Theoretical Study On The Mechanical Property And Phase Transition Mechanism Of Layered Metal Carbides Materials
87. First-principles Study On The Phase Stability And Elastic Properties Of Zr-Ti-Al-V Alloy
88. Preparation And First-principles Study Of Ion Doped M-type Strontium Ferrite
89. First-principles Study Of The Interaction Between Fe And Li
90. First-Principles Study of Thermodynamic Properties in Thin-Film Photovoltaics
91. A First Principles Study of Mass Transport in the Dehydrogenation of Lithium Amides and Lithium Alanates
92. First-Principles Study Of Ions Transport Mechanism And Electrochemistry Window Of Solid State Electrolytes
93. Defect Behavior In Several Cladding And Structural Materials:A First-principles Study
94. First-principles Study On The Linker Between Two-dimensional Materials In Lithium-ion Batteries Anode
95. Ion Transport Mechanism Of Lithium Solid-state Battery Materials Based On First Principles Study
96. First-principles Study On The Electronic Structure Of Antimony/bismuth Single-layer Two-dimensional Topological Materials
97. First-principles Study On Thermal Conductivity Of AgSnO2 Contact Materials By Metal Doping
98. The Structural Stability And Evolution Process Of Li2Se2Sx On The Surface Of Graphene By A First Principles Calculation
99. Modified Carbon As Anode Material For Lithium-Ion Batteries:A First-Principles Study
100. First-principles Study On Magnesium Storage Performance Of Cathode Material δ-MnO2 For Magnesium Ion Batteries
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