International Journal of Metallurgical & Materials Engineering Volume 2 (2016), Article ID 2:IJMME-122, 5 pages
http://dx.doi.org/10.15344/2455-2372/2016/122
http://dx.doi.org/10.15344/2455-2372/2016/122
Research Article
Effects of Boric Acid Tris-(2-oxo-[1,3]dioxolan-4-ylmethyl) Ester as an Additive on the Electrochemical Performance of Graphite Anode
References
- Verma P, Maire P, Novák P (2010) A review of the features and analyses of the solid electrolyte interphase in Li-ion batteries. J Electrochimica Acta 55: 6332-6341. View
- Wang XS, Xing LD, Liao XL, Chen XF, Huang WN, et al. (2015) Improving cyclic stability of lithium cobalt oxide based lithium ion battery at high voltage by using trimethylboroxine as an electrolyte additive. J Electrochimica Acta 173: 804-811. View
- Li Y, Lian F, Ma LL, Liu CL, Yang L, et al. (2015) Fluoroethylene Carbonate as Electrolyte Additive for Improving the electrochemical performances of High-Capacity Li1.16[Mn0.75Ni0.25]0.84O2 Material. J Electrochimica Acta 168: 261-270. View
- Yang JP, Zhao P, Shang YM, Wang L, He XM, et al. (2014) Improvement in High-voltage Performance of Lithium-ion Batteries Using Bismaleimide as an Electrolyte Additive. J Electrochimica Acta 121: 264-269. View
- Zhang SS, Xu K, Jow TR (2006) EIS study on the formation of solid electrolyte interface in Li-ion battery. J Electrochimica Acta 51: 1636-1640. View
- Xu MQ, Liu YL, Li B, Li WS, Li XP, et al. (2012) Tris (pentafluorophenyl) phosphine: An electrolyte additive for high voltage Li-ion batteries. J Electrochemistry Communications 18:123-126. View
- Zhang SS (2006) A review on electrolyte additives for lithium-ion batteries. J Power Sources 162:1379-1394. View
- Victor A. Agubra, Jeffrey W. Fergus (2014) The formation and stability of the solid electrolyte interface on the graphite anode. J Power Sources 268:153- 162. View
- Zhang SS, Xu K, Jow TR (2003) Tris(2,2,2-trifluoroethyl) phosphite as cosolvent for nonflammable electrolytes in Li-ion battery. J Power Sources 113:166-172. View
- Shin JS, Han CH, Jung UH, Lee SI, Kim HJ, et al. (2002) Effect of Li2CO3 additive on gas generation in lithium-ion batteries. J Power Sources 109:47-52. View
- Aurbach D, Gamolsky K, Markovsky B, Gofer Y, Schmidt M, et al. (2002) On the use of vinylene carbonate (VC) as an additive to electrolyte solutions for Li-ion batteries. J Electrochimica Acta 47: 1423-1439. View
- Zhu Y, Li Y, Bettge M, P. Abraham D (2013) Electrolyte additive combinations that enhance performance of high-capacity Li1.2Ni0.15Mn0.55Co0.1O2-graphite cells. J Electrochimica Acta 110: 191-199. View
- Liu YB, Tan L, Li L (2013) Tris(trimethylsilyl) borate as an electrolyte additive to improve the cyclability of LiMn2O4 cathode for lithium-ion battery. J Power Sources 221: 90-96. View
- Feng JK, Cao YL, Ai XP, Yang HX (2008) Tri-(4-methoxythphenyl) phosphate: A new electrolyte additive with both fire-retardancy and overcharge protection for Li-ion batteries. J Electrochimica Acta 53: 8265- 8268. View
- Sultana I, Mokhlesur RM, Wang JZ, Wang CY, Wallace GG, et al. (2012) All-polymer battery system based on polypyrrole (PPy)/para (toluene sulfonicacid) (pTS) and polypyrrole (PPy)/indigo carmine (IC) free standing films. J Electrochimica Acta 83: 209-215. View
- Shao YY, Engelhard M, Lin YH (2009) Electrochemical investigation of polyhalide ion oxidation–reduction on carbon nanotube electrodes for redox flow batteries. J Electrochemistry Communications 11:2064-2067. View
- Balakrishnan PG, Ramesh R, Kumar TP (2006) Safety mechanisms in lithium-ion batteries. J Power Sources 155: 401-414. View
- Li B, Wang YQ, Lin HB, Wang XS, Xu MQ, et al. (2014) Performance improvement of phenyl acetate as propylene carbonate-based electrolyte additive for lithium ion battery by fluorine-substituting. J Power Sources 267:182-187. View
- Wang HY, Masaki Yoshio (2001) Carbon-coated natural graphite prepared by thermal vapor decomposition process, a candidate anode material for lithium-ion battery. J Power Sources 93:123-129. View
- Song HS, Cao Z, Zhang ZA , Lai YQ, Li J, et al. (2014) Effect of vinylene carbonate as electrolyte additive on cycling performance of LiFePO4/ graphite cell at elevated temperature. J Transactions of Nonferrous Metals Society of China 24: 723-728. View
- Markervich E, Salitra G, Levi MD, Aurbach D (2005) Capacity fading of lithiated graphite electrodes studied by a combination of electroanalytical methods, Raman spectroscopy and SEM. J Power Sources 146:146-150. View
- An YX, Zuo PJ, Cheng XQ, Liao LX, Yin GP (2011) The effects of LiBOB additive for stable SEI formation of PP13TFSI-organic mixed electrolyte in lithium ion batteries. J Electrochimica Acta 56:4841-4848. View
- Abe K, Yoshitake H, Kitakura T, Hattori T, Wang HY, et al. (2004) Additivescontaining functional electrolytes for suppressing electrolyte decomposition in lithium-ion batteries. J Electrochimica Acta 49:4613-4622. View