隔膜是锂离子电池的重要组成部分,对隔膜进行材料及结构的优化可以提高锂离子电池的性能.通过在普通商用聚丙烯(PP)隔膜表面构建多孔石墨烯/聚偏氟乙烯功能层的方式获得了复合隔膜材料,通过涂布及常温液相处理的方法调控涂层的孔隙结构,使复合隔膜对电解液的吸附性能明显提高,功能层使复合隔膜具有优异的离子透过性和单侧(石墨烯层)导电性.与采用普通聚丙烯隔膜相比,功能层复合隔膜在低倍率(0.5 C)下的电极材料容量发挥相当.而在高倍率(5 C)下,功能层复合隔膜下,电池容量发挥非常突出,并且600次循环后的容量保持率接近100%,而采用常规PP隔膜,电池材料则容量快速衰减失效.
The separator is an important part of lithium-ion batteries and its optimization from both material and structural consid-erations can improve the performance of the battery. We prepared multilayer separators by coating a slurry containing graphene and PVDF in N-methylpyrrolidone on one side of a commercial polypropylene ( PP) separator, followed by water treatment at 60 ℃ for 6 h and vacuum drying at 60 ℃ for 12 h to manipulate the pore structure of the composite layer. Results indicate that the discharge capacities of batteries using PP and the composite separator were nearly the same at a low rate of 0. 5 C. However, the capacity of the former at a high rate of 5 C fades quickly while that of the latter remains almost unchanged after 600 cycles. The composite sepa-rators have a high absorption and wettability of the electrolyte, resulting in an improved conductivity.
参考文献
| [1] | Jusef Hassoun;Bruno Scrosati.Moving to a Solid-State Configuration: A Valid Approach to Making Lithium-Sulfur Batteries Viable for Practical Applications[J].Advanced Materials,201045(45):5198-5201. |
| [2] | Yong-Sheng Hu;Rezan Demir-Cakan;Maria-Magdalena Titirici.Superior Storage Performance of a Si@SiO_x/C Nanocomposite as Anode Material for Lithium-Ion Batteries[J].Angewandte Chemie,20089(9):1645-1649. |
| [3] | Wu, Z.-S.;Ren, W.;Xu, L.;Li, F.;Cheng, H.-M..Doped graphene sheets as anode materials with superhigh rate and large capacity for lithium ion batteries[J].ACS nano,20117(7):5463-5471. |
| [4] | Hun-Gi Jung;Seung-Taek Myung;Chong Seung Yoon;Seoung-Bum Son;Kyu Hwan Oh;Khalil Amine;Bruno Scrosati;Yang-Kook Sun.Microscale spherical carbon-coated Li_4Ti_5O_(12) as ultra high power anode material for lithium batteries[J].Energy & environmental science: EES,20114(4):1345-1351. |
| [5] | Zhong, Yiren;Yang, Mei;Zhou, Xianlong;Luo, Yuting;Wei, Jinping;Zhou, Zhen.Orderly Packed Anodes for High-Power Lithium-Ion Batteries with Super-Long Cycle Life: Rational Design of MnCO3/Large-Area Graphene Composites[J].Advanced Materials,20155(5):806-812. |
| [6] | Li, Fu-Sheng;Wu, Yu-Shiang;Chou, Jackey;Winter, Martin;Wu, Nae-Lih.A Mechanically Robust and Highly Ion-Conductive Polymer-Blend Coating for High-Power and Long-Life Lithium-Ion Battery Anodes[J].Advanced Materials,20151(1):130-137. |
| [7] | Lee, Hun;Yanilmaz, Meltem;Toprakci, Ozan;Fu, Kun;Zhang, Xiangwu.A review of recent developments in membrane separators for rechargeable lithium-ion batteries[J].Energy & environmental science: EES,201412(12):3857-3886. |
| [8] | Hong-yan Guan;Fang Lian;Yan Ren;Yan Wen;Xiao-rong Pan;Jia-lin Sun.Comparative study of different membranes as separators for rechargeable lithium-ion batteries[J].矿物冶金与材料学报,2013(06):598-603. |
| [9] | Renaud Bouchet;Sebastien Maria;Rachid Meziane.Single-ion BAB triblock copolymers as highly efficient electrolytes for lithium-metal batteries[J].Nature materials,20135(5):452-457. |
| [10] | Yusong Zhu;Shiying Xiao;Yi Shi.A trilayer poly(vinylidene fluoride)/polyborate/ poly(vinylidene fluoride) gel polymer electrolyte with good performance for lithium ion batteries[J].Journal of Materials Chemistry, A. Materials for energy and sustainability,201326(26):7790-7797. |
| [11] | Yoshikatsu Seino;Tsuyoshi Ota;Kazunori Takada;Akitoshi Hayashi;Masahiro Tatsumisago.A sulphide lithium super ion conductor is superior to liquid ion conductors for use in rechargeable batteries[J].Energy & environmental science: EES,20142(2):627-631. |
| [12] | Yusong Zhu;Faxing Wang;Lili Liu;Shiying Xiao;Zheng Chang;Yuping Wu.Composite of a nonwoven fabric with poly(vinylidene fluoride) as a gel membrane of high safety for lithium ion battery[J].Energy & environmental science: EES,20132(2):618-624. |
| [13] | Mumin Rao;Xiuyu Geng;Xiaoping Li;Shejun Hu;Weishan Li.Lithium-sulfur cell with combining carbon nanofibers-sulfur cathode and gel polymer electrolyte[J].Journal of Power Sources,2012Aug.15(Aug.15):179-185. |
| [14] | Ki Jae Kim;Jae-Hun Kim;Min-Sik Park;Hyuk Kwon Kwon;Hansu Kim;Young-Jun Kim.Enhancement of electrochemical and thermal properties of polyethylene separators coated with polyvinylidene fluoride-hexafluoropropylene co-polymer for Li-ion batteries[J].Journal of Power Sources,2012Jan.15(Jan.15):298-302. |
| [15] | Won-Kyung Shin;Dong-Won Kim.High performance ceramic-coated separators prepared with lithium ion-containing SiO_2 particles for lithium-ion batteries[J].Journal of Power Sources,2013Mar.15(Mar.15):54-60. |
| [16] | Hao Li;Hong Zhang;Zhi-Ying Liang;Yue-Ming Chen;Bao-Ku Zhu;Li-Ping Zhu.Preparation and Properties of Poly(vinylidene fluoride)/poly(dimethylsiloxane) graft (poly(propylene oxide)-block-poly(ethylene oxide)) blend porous separators and corresponding electrolytes[J].Electrochimica Acta,2014:413-420. |
| [17] | Jun Young Kim;Yongbeom Lee;Dae Young Lim.Plasma-modified polyethylene membrane as a separator for lithium-ion polymer battery[J].Electrochimica Acta,200914(14):3714-3719. |
| [18] | Myung-Hyun Ryou;Yong Min Lee;Jung-Ki Park;Jang Wook Choi.Mussel-Inspired Polydopamine-Treated Polyethylene Separators for High-Power Li-Ion Batteries[J].Advanced Materials,201127(27):3066-3070. |
| [19] | Zhou, Guangmin;Li, Lu;Wang, Da-Wei;Shan, Xu-yi;Pei, Songfeng;Li, Feng;Cheng, Hui-Ming.A Flexible Sulfur-Graphene-Polypropylene Separator Integrated Electrode for Advanced Li-S Batteries[J].Advanced Materials,20154(4):641-647. |
| [20] | Fang, Ruopian;Zhou, Guangmin;Pei, Songfeng;Li, Feng;Cheng, Hui-Ming.Localized polyselenides in a graphene-coated polymer separator for high rate and ultralong life lithium-selenium batteries[J].Chemical communications,201517(17):3667-3670. |
| [21] | C.M. Costa;J.L. Gomez Ribelles;S. Lanceros-Mendez;G.B. Appetecchi;B. Scrosati.Poly(vinylidene fluoride)-based, co-polymer separator electrolyte membranes for lithium-ion battery systems[J].Journal of Power Sources,2014Jan.1(Jan.1):779-786. |
| [22] | Chong Zhou;Zhan Wang;Yanli Liang.Study on the control of pore sizes of membranes using chemical methods Part II.Optimization factors for preparation of membranes[J].Desalination: The International Journal on the Science and Technology of Desalting and Water Purification,20081/3(1/3):123-138. |
| [23] | Wei, Hang;Ma, Jin;Li, Biao;Zuo, Yuxuan;Xia, Dingguo.Enhanced Cycle Performance of Lithium-Sulfur Batteries Using a Separator Modified with a PVDF-C Layer[J].ACS applied materials & interfaces,201422(22):20276-20281. |
| [24] | Wulin Yang;Weihua He;Fang Zhang.Single-Step Fabrication Using a Phase Inversion Method of Poly(vinylidene fluoride) (PVDF) Activated Carbon Air Cathodes for Microbial Fuel Cells[J].Environmental Science & Technology Letters,201410(10):416-420. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%