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毕业论文网 > 任务书 > 材料类 > 复合材料与工程 > 正文

NiO@Ni(OH)2/GNSs的制备及电化学性能研究任务书

 2020-04-20 13:08:34  

1. 毕业设计(论文)的内容和要求

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(4) #36890;#36807;#27605;#19994;#35770;#25991;#30340;#20889;#20316;#65292;#22521;#20859;#23398;#29983;#33258;#35273;#36981;#23432;#23398;#26415;#36947;#24503;#35268;#33539;#65292;#20005;#35880;#27835;#23398;#30340;#24577;#24230;#12290;#23398;#29983;#24517;#39035;#22312;#28040;#21270;#25991;#29486;#36164;#26009;#30340;#22522;#30784;#19978;#65292;#33258;#24049;#26500;#24605;#65292;#25776;#20889;#27605;#19994;#35770;#25991;#65292;#20005;#31105;#20174;#32593;#19978;#12289;#20854;#20182;#20070;#21002;#19978;#20840;#25991;#25110;#37096;#20998;#25220;#34989;#21035;#20154;#30340;#25991;#31456;#65292;#27605;#19994;#35770;#25991;#24341;#29992;#25991;#29486;#20013;#30340;#35266;#28857;#12289;#25968;#25454;#12289;#29978;#33267;#22270;#34920;#24517;#39035;#26631;#26126;#25991;#29486;#30340;#20986;#22788;#12290; (5) #35770;#25991;#32467;#26500;#24212;#39034;#29702;#25104;#31456;#65292;#39318;#23614;#36143;#19968;#65292;#26465;#29702;#28165;#26224;#65292;#36716;#25240;#33258;#28982;#65292;#32467;#26500;#39034;#30021;#12290;#24212;#27880;#24847;#26631;#28857;#12289;#25991;#23383;#12289;#35821;#21477;#12289;#27573;#33853;#30340;#27491;#30830;#36816;#29992;#21644;#21512;#29702;#23433;#25490;#65292;#36923;#36753;#24615;#35201;#24378;#65292;#27491;#25991;#23383;#25968;#19981;#23569;#20110;1#19975;#23383;#12290;#35013;#35746;#27605;#19994;#35770;#25991;#26102;#65292;#21508;#37096;#20998;#25353;#20174;#21069;#21521;#21518;#30340;#25490;#21015;#39034;#24207;#65292;#32479;#19968;#35201;#27714;#22914;#19979;#65306;#23553;#38754;#12289;#20013;#33521;#25991;#25688;#35201;#12289;#30446;#24405;#12289;#27491;#25991;#12289;#21442;#32771;#25991;#29486;#12290;

2. 参考文献

[1] Abdelraheem, W. H. M.; He, X. X.; Duan, X. D.; Dionysiou, D. D. Degradation and mineralization of organic UV absorber compound 2-phenylbenzimidazole- 5-sulfonic acid (PBSA) using UV-254 nm/H2O2. J. Hazard. Mater. 2015, 282, 233#8722;240. [2] Xiong, X.; Sun, B.; Zhang, J.; Gao, N.; Shen, J.; Li, J.; Guan, X. Activating persulfate by Fe0 coupling with weak magnetic field: Performance and mechanism. Water Res. 2014, 62, 53#8722;62. [3] Juretic, H.; Montalbo-Lomboy, M.; van Leeuwen, J.; Cooper, W. J.; Grewell, D. Hydroxyl radical formation in batch and continuous flow ultrasonic systems. Ultrason. Sonochem. 2015, 22, 600#8722;606. [4] Shi, P. H.; Su, R. J.; Zhu, S. B.; Zhu, M. C.; Li, D. X.; Xu, S. H. Supported cobalt oxide on graphene oxide: Highly efficient catalysts for the removal of Orange II from water. J. Hazard. Mater. 2012, 229#8722;230, 331#8722;339. [5] Zeng, T.; Zhang, X.; Wang, S.; Niu, H.; Cai, Y. Spatial Confinement of a Co3O4 catalyst in hollow metal#8722;organic frameworks as a nanoreactor for improved degradation of organic pollutants. Environ. Sci. Technol. 2015, 49, 2350#8722;2357. [6] Saputra, E.; Muhammad, S.; Sun, H.; Ang, H. M.; Tade? M. O.; Wang, S. A comparative study of spinel structured Mn3O4, Co3O4 and Fe3O4 nanoparticles in catalytic oxidation of phenolic contaminants in aqueous solutions. J. Colloid Interface Sci. 2013, 407, 467#8722;473. [7] Duan, X.; Ao, Z.; Sun, H.; Indrawirawan, S.; Wang, Y.; Kang, J.; Liang, F.; Zhu, Z. H.; Wang, S. Nitrogen-doped graphene for generation and evolution of reactive radicals by metal-free catalysis. ACS Appl. Mater. Interfaces 2015, 7, 4169#8722;78. [8] Shi, P. H.; Su, R. J.; Wan, F. Z.; Zhu, M. C.; Li, D. X.; Xu, S. H. Co3O4 nanocrystals on graphene oxide as a synergistic catalyst for degradation of Orange II in water by advanced oxidation technology based on sulfate radicals. Appl. Catal., B 2012, 123#8722;124, 265#8722;272. [9] Liang, H.; Sun, H. Q.; Patel, A.; Shukla, P.; Zhu, Z. H.; Wang, S. B. Excellent performance of mesoporous Co3O4/MnO2 nanoparticles in heterogeneous activation of peroxymonosulfate for phenol degradation in aqueous solutions. Appl. Catal., B 2012, 127, 330#8722;335. [10] Li, S.; Zhao, C.; Shu, K.; Wang, C.; Guo, Z.; Wallace, G. G.; Liu, H. Mechanically strong high performance layered polypyrrole nano fibre/graphene film for flexible solid state supercapacitor. Carbon 2014, 79, 554#8722;562. [11] Dong, C.; Xiao, X.; Chen, G.; Guan, H.; Wang, Y. Hydrothermal synthesis of Co3O4 nanorods on nickel foil. Mater. Lett. 2014, 123, 187#8722;190. [12] Lv, Y.; Li, Y.; Shen, W. Synthesis of Co3O4 nanotubes and their catalytic applications in CO oxidation. Catal. Commun. 2013, 42, 116#8722;120. [13] Zhang, W.; Tay, H. L.; Lim, S. S.; Wang, Y.; Zhong, Z.; Xu, R. Supported cobalt oxide on MgO: Highly efficient catalysts for degradation of organic dyes in dilute solutions. Appl. Catal., B 2010, 95, 93#8722;99. [14] Natile, M. M.; Glisenti, A. New NiO/Co3O4 and Fe2O3/Co3O4 nanocomposite catalysts: Synthesis and characterization. Chem. Mater. 2003, 15, 2502#8722;2510. [15] Bai, B.; Li, J. Positive Effects of K Ions on Three-dimensional mesoporous Ag/Co3O4 catalyst for HCHO oxidation. ACS Catal. 2014, 4, 2753#8722;2762. [16] Wang, X.; Zhong, Y.; Zhai, T.; Guo, Y.; Chen, S.; Ma, Y.; Yao, J.; Bando, Y.; Golberg, D. Multishelled Co3O4-Fe3O4 hollow spheres with even magnetic phase distribution: Synthesis, magnetic properties and their application in water treatment. J. Mater. Chem. 2011, 21, 17680. [17] Abdelkader, A. M. Electrochemical synthesis of highly corrugated graphene sheets for high performance supercapacitors. J. Mater. Chem. A 2015, 3, 8519#8722;8525. [18] Zhang, S.; Zhu, L.; Song, H.; Chen, X.; Zhou, J. Enhanced electrochemical performance of MnO nanowire/graphene composite during cycling as the anode material for lithium-ion batteries. Nano Energy 2014, 10, 172#8722;180. [19] Gao, M. R.; Cao, X.; Gao, Q.; Xu, Y. F.; Zheng, Y. R.; Jiang, J.; Yu, S. H. Nitrogen-doped graphene supported CoSe2 nanobelt composite catalyst for efficient water oxidation. ACS Nano 2014, 8, 3970#8722;3978. [20] Duan, X.; Sun, H. Q.; Wang, Y.; Kang, J.; Wang, S. B. N-dopinginduced nonradical reaction on single-walled carbon nanotubes for catalytic phenol oxidation. ACS Catal. 2015, 5, 553#8722;559. [21] Xiang, Q.; Yu, J.; Jaroniec, M. Synergetic effect of MoS2 and graphene as cocatalysts for enhanced photocatalytic H2 production activity of TiO2 nanoparticles. J. Am. Chem. Soc. 2012, 134, 6575#8722;6578. [22] Zhou, G.; Wang, D. W.; Yin, L. C.; Li, N.; Li, F.; Cheng, H. M. Oxygen bridges between NiO nanosheets and graphene for improvement of lithium storage. ACS Nano 2012, 6, 3214#8722;3223. [23] Nguyen, V. H.; Shim, J. J. Ionic liquid-assisted synthesis and electrochemical properties of ultrathin Co3O4 nanotube-intercalated graphene composites. Mater. Lett. 2015, 157, 290#8722;294. [24] Qiu, D. F.; Bu, G.; Zhao, B.; Lin, Z. X.; Pu, L.; Pan, L. J.; Shi, Y. In situ growth of mesoporous Co3O4 nanoparticles on graphene as a high-performance anode material for lithium-ion batteries. Mater. Lett. 2014, 119, 12#8722;15. [25] Wang, Q.; Zhang, C. Y.; Xia, X. B.; Xing, L. L.; Xue, X. Y. Extremely high capacity and stability of Co3O4/graphene nanocomposites as the anode of lithium-ion battery. Mater. Lett. 2013, 112, 162#8722;164. [26] Zhang, Z.; Hao, J.; Yang, W.; Lu, B.; Ke, X.; Zhang, B.; Tang, J. Porous Co3O4 nanorods#8722;reduced graphene oxide with intrinsic peroxidase-like activity and catalysis in the degradation of methylene blue. ACS Appl. Mater. Interfaces 2013, 5, 3809#8722;3815.

3. 毕业设计(论文)进程安排

#36215;#35755;#26085;#26399; #35774;#35745;#65288;#35770;#25991;#65289;#21508;#38454;#27573;#24037;#20316;#20869;#23481; #22791; #27880; 2018.12~2019.1 #38405;#35835;#30456;#20851;#25991;#29486;#21450;#36164;#26009;#65292;#20102;#35299;#35838;#39064;#30340;#22522;#26412;#30693;#35782;#21450;#30456;#20851;#32972;#26223; 2019.1~2019.2 #23545;#20110;#24050;#38405;#35835;#30340;#25991;#29486;#26448;#26009;#65292;#36827;#34892;#24635;#32467;#65292;#23436;#25104;#24320;#39064;#25253;#21578;#19982;#25991;#29486;#32763;#35793; 2019.2~2019.4 #36827;#34892;#30456;#20851;#23454;#39564;#20869;#23481;#65292;#24182;#23545;#23454;#39564;#30340;#32467;#26524;#36827;#34892;#20998;#26512;#35752;#35770; 2019.4~2019.5 #20998;#26512;#25972;#29702;#23454;#39564;#25968;#25454;#65292;#25776;#20889;#27605;#19994;#35770;#25991; 2019.5~2019.6 #20462;#25913;#27605;#19994;#35770;#25991;#21450;#36827;#34892;#27605;#19994;#31572;#36777;

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