基于转换反应的Mn2SiO4材料的电化学储Li特性任务书
2020-06-25 20:45:20
1. 毕业设计(论文)的内容和要求
#30789;#37240;#30416;#36127;#26497;#26448;#26009;MSiO4#65288;M = Mn#12289;Fe#12289;Co#12289;Zn#65289;#30001;#20110;#20854;#36739;#39640;#30340;#29702;#35770;#23481;#37327;#65292;#21407;#26009;#26131;#24471;#65292;#20215;#26684;#20302;#24265;#65292;#29615;#22659;#21451;#22909;#31561;#20248;#28857;#32780;#26377;#26395;#25104;#20026;#26032;#22411;Li#31163;#23376;#30005;#27744;#36127;#26497;#26448;#26009;#12290;Mn2SiO4#36127;#26497;#26448;#26009;#22240;#20854;#36739;#39640;#30340;#29702;#35770;#23481;#37327;#65292;#24490;#29615;#36807;#31243;#20013;#32467;#26500;#20855;#26377;#36739;#22909;#30340;#31283;#23450;#24615;#32780;#36827;#20837;#23398;#32773;#30340;#35270;#32447;#12290;#35838;#39064;#20197;#28342;#33014;#20957;#33014;#27861;#21046;#22791;Mn2SiO4#20026;#20986;#21457;#28857;#23637;#24320;#30740;#31350;#12290;#20027;#35201;#26159;#27604;#36739;#19981;#21516;#28903;#32467;#28201;#24230;#19979;#24471;#21040;#30340;Mn2SiO4#26448;#26009;#30340;#24494;#35266;#24418;#35980;#20197;#21450;#30005;#21270;#23398;#24615;#33021;#12290;#27605;#19994;#35770;#25991;#35201;#27714;#23436;#25104;#24320;#39064;#25253;#21578;#65288;#21547;#25991;#29486;#32508;#36848;#12289;#21442;#32771;#25991;#29486;#19981;#23569;#20110;20#65289;#12289;#33521;#25991;#36164;#26009;#32763;#35793;#65288;#27721;#35821;#23383;#25968;#22312;3500#23383;#24038;#21491;#65289;#12289;#27605;#19994;#35770;#25991;#65288;#23383;#25968;#22312;12000#23383;#24038;#21491;#12289;#21015;#20986;#21442;#32771;#25991;#29486;#30446;#27425;#24182;#19981;#23569;#20110;30#31687;#65289;#65292;#27605;#19994;#35770;#25991;#22270;#32440;#21487;#26681;#25454;#35770;#25991;#30740;#31350;#20869;#23481;#37196;#24773;#22788;#29702;#12290;
2. 参考文献
[1] J.M. Tarascon, M. Armand, Issues and challenges facing rechargeable lithium batteries, Nature 414 (6861) (2001) 359. [2] A. M, H. Q, S. LL, Silicon as a potential anode material for Li-ion batteries: where size, geometry and structure matter, Nanoscale 8 (1) (2016) 74. [3] A.S. ARIC? P. BRUCE, B. SCROSATI, J. TARASCON, W.V. SCHALKWIJK, Nanostructured materials for advanced energy conversion and storage devices, Nature Materials 4 (5) (2005) 366. [4] Y.B. He, B. Li, M. Liu, C. Zhang, W. Lv, C. Yang, J. Li, H. Du, B. Zhang, Q.H. Yang, Gassing in Li(4)Ti(5)O(12)-based batteries and its remedy, Scientific Reports 2 (12) (2012) 913. [5] I. Belharouak, G.M. Koenig, T. Tan, H. Yumoto, N. Ota, K. Amine, Performance Degradation and Gassing of Li4Ti5O12/LiMn2O4 Lithium-Ion Cells, Journal of the Electrochemical Society 159 (8) (2012) A1165-A1170. [6] C. Tang, J. Zhu, X. Wei, L. He, K. Zhao, C. Xu, L. Zhou, B. Wang, J. Sheng, L. Mai, Copper silicate nanotubes anchored on reduced graphene oxide for long-life lithium-ion battery, Energy Storage Materials 7 (2017) 152-156. [7] Y. Yang, Q. Liang, J. Li, Y. Zhuang, Y. He, B. Bai, X. Wang, Ni3Si2O5(OH)4 multi-walled nanotubes with tunable magnetic properties and their application as anode materials for lithium batteries, Nano Research 4 (9) (2011) 882-890. [8] S. Zhang, M. Lu, Y. Li, F. Sun, J. Yang, S. Wang, Synthesis and electrochemical properties of Zn2SiO4 nano/mesorods, Materials Letters 100 (6) (2013) 89-92. [9] F. Mueller, D. Bresser, N. Minderjahn, J. Kalhoff, S. Menne, S. Krueger, M. Winter, S. Passerini, Cobalt orthosilicate as a new electrode material for secondary lithium-ion batteries, Dalton Transactions 43 (40) (2014) 15013-15021. [10] W. Xiujuan, T. Chunjuan, W. Xuanpeng, Z. Liang, W. Qiulong, Y. Mengyu, S. Jinzhi, H. Ping, W. Bolun, M. Liqiang, Copper Silicate Hydrate Hollow Spheres Constructed by Nanotubes Encapsulated in Reduced Graphene Oxide as Long-Life Lithium-Ion Battery Anode, Acs Applied Materials Interfaces 7 (48) (2015) 26572-26578. [11] P. Guo, C. Wang, Good lithium storage performance of Fe2SiO4 as an anode material for secondary lithium ion batteries, Rsc Advances 7 (8) (2017) 4437-4443. [12] Y.Y. Wang, T. Li, Y.X. Qi, R.L. Bai, L.W. Yin, H. Li, N. Lun, Y.J. Bai, Carbon-coated manganese silicate exhibiting excellent rate performance and high-rate cycling stability for lithium-ion storage, Electrochimica Acta 186 (2015) 572-578. [13] Y.Y. Wang, N. Lun, Y.X. Qi, Y.J. Bai, Efficient mass-fabrication of amorphous MnSiO3/C with high stability through a simple water-boiling treatment and its Li-ion storage performance, New Journal of Chemistry 41 (11) (2017). [14] C. Tang, J. Sheng, C. Xu, S.M.B. Khajehbashi, X. Wang, P. Hu, X. Wei, Q. Wei, L. Zhou, L. Mai, Facile synthesis of reduced graphene oxide wrapped nickel silicate hierarchical hollow spheres for long-life lithium-ion batteries, Journal of Materials Chemistry A 3 (38) (2015) 19427-19432. [15] Y.K. Sun, X. Bai, T. Li, G.X. Lu, Y.X. Qi, N. Lun, Y. Tian, Y.J. Bai, One-Step Fabrication of Fe-Si-O/Carbon Nanotube Composite Anode Material with Excellent High-Rate Long-Term Cycling Stability, in: Materials Research Society 2016 Fall Meeting, Boston, 2017, pp. 1-7.
3. 毕业设计(论文)进程安排
2018.2.25-2018.3.10#65306;#23436;#25104;#25991;#29486;#32508;#36848;#21450;#24320;#39064;#25253;#21578;#30340;#25776;#20889;#20219;#21153;#12289;#25991;#29486;#32763;#35793;#23436;#25104;#65307; 2018.3.11-2018.4.20#65306;#23436;#25104;#26448;#26009;#30340;#21046;#22791;#21450;#32467;#26500;#34920;#24449;#65307; 2018.4.21-2018.5.10#65306;#23436;#25104;#30005;#26497;#26448;#26009;#30340;#30005;#21270;#23398;#24615;#33021;#27979;#35797;#65307; 2018.5.11-2018.6.1#65306;#23436;#25104;#23454;#39564;#25968;#25454;#30340;#20998;#26512;#21450;#25972;#29702;#24037;#20316;#65292;#22312;#27492;#22522;#30784;#19978;#23436;#25104;#27605;#19994;#35770;#25991;#30340;#25776;#20889;#12290; 2018.6.2-2018.6.15#65306;#20462;#25913;#27605;#19994;#35770;#25991;#24182;#23436;#25104;#27605;#19994;#35770;#25991;#30340;#31572;#36777;#12290;
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