| 1 |
High rate and capacity performances of functionalized MXene/graphene heterostructure anodes for magnesium-ion batteries
Song DX, Du YZ, Ma WG, Zhang X
International Journal of Energy Research, 45(2), 3421, 2021 |
| 2 |
Polyviologen as a high energy density cathode in magnesium-ion batteries
Ikhe AB, Naveen N, Sohn KS, Pyo M
Electrochimica Acta, 283, 393, 2018 |
| 3 |
Tin-based materials as versatile anodes for alkali (earth)-ion batteries
Huang B, Pan ZF, Su XY, An L
Journal of Power Sources, 395, 41, 2018 |
| 4 |
Surface magnesiation of tin and bismuth as anode materials for magnesium ion batteries
Jin W, Wang ZG
Materials Chemistry and Physics, 217, 388, 2018 |
| 5 |
Li3VO4: an insertion anode material for magnesium ion batteries with high specific capacity
Zeng J, Yang Y, Li C, Li JQ, Huang JX, Wang J, Zhao JB
Electrochimica Acta, 247, 265, 2017 |
| 6 |
Improving halide-containing magnesium-ion electrolyte performance via sterically hindered alkoxide ligands
Nist-Lund CA, Herb JT, Arnold CB
Journal of Power Sources, 362, 308, 2017 |
| 7 |
Magnesium stannide as a high-capacity anode for magnesium-ion batteries
Nguyen DT, Song SW
Journal of Power Sources, 368, 11, 2017 |
| 8 |
A study of structural, electrical and electrochemical properties of PVdF-HFP gel polymer electrolyte films for magnesium ion battery applications
Tang X, Muchakayala R, Song S, Zhang Z, Polu AR
Journal of Industrial and Engineering Chemistry, 37, 67, 2016 |
| 9 |
Aluminum doping improves the energetics of lithium, sodium, and magnesium storage in silicon: A first-principles study
Legrain F, Manzhos S
Journal of Power Sources, 274, 65, 2015 |
| 10 |
Insertion energetics of lithium, sodium, and magnesium in crystalline and amorphous titanium dioxide: A comparative first-principles study
Legrain F, Malyi O, Manzhos S
Journal of Power Sources, 278, 197, 2015 |
