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A High-Quality Monoclinic Nickel Hexacyanoferrate for Aqueous Zinc-Sodium Hybrid Batteries Ma FX, Yuan XH, Xu T, Zhou SY, Xiong XS, Zhou Q, Yu NF, Ye JL, Wu YP, van Ree T Energy & Fuels, 34(10), 13104, 2020 |
2 |
In Pursuit of a Dendrite-Free Electrolyte/Electrode Interface on Lithium Metal Anodes: A Minireview Xiong XS, Zhou Q, Zhu YS, Chen YH, Fu LJ, Liu LL, Yu NF, Wu YP, van Ree T Energy & Fuels, 34(9), 10503, 2020 |
3 |
Nano LiMn2O4 as cathode material of high rate capability for lithium ion batteries Tang W, Wang XJ, Hou YY, Li LL, Sun H, Zhu YS, Bai Y, Wu YP, Zhu K, van Ree T Journal of Power Sources, 198, 308, 2012 |
4 |
Methyl phenyl bis-methoxydiethoxysilane as bi-functional additive to propylene carbonate-based electrolyte for lithium ion batteries Li LL, Li L, Wang B, Liu LL, Wu YP, van Ree T, Thavhiwa KA Electrochimica Acta, 56(13), 4858, 2011 |
5 |
2-Phenylimidazole as an additive to prevent the co-intercalation of propylene carbonate in organic electrolyte for lithium-ion batteries Wang B, Qu QT, Yang LC, Xia Q, Wu YP, Zhou DL, Gu XJ, van Ree T Journal of Power Sources, 189(1), 757, 2009 |
6 |
Effects of 3,5-bis(trifluoromethyl)benzeneboronic acid as an additive on electrochemical performance of propylene carbonate-based electrolytes for lithium ion batteries Wang B, Qu QT, Xia Q, Wu YP, Li X, Gan CL, van Ree T Electrochimica Acta, 54(2), 816, 2008 |
7 |
Phenyl tris-2-methoxydiethoxy silane as an additive to PC-based electrolytes for lithium-ion batteries Xia Q, Wang B, Wu YP, Luo HJ, Zhao SY, van Ree T Journal of Power Sources, 180(1), 602, 2008 |
8 |
Phase-Diagram of a Lennard-Jones Solid Choi Y, Ree T, Ree FH Journal of Chemical Physics, 99(12), 9917, 1993 |