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毕业论文网 > 任务书 > 材料类 > 金属材料工程 > 正文

管状微米马达的制备和运动行为研究任务书

 2020-06-28 08:06  

1. 毕业设计(论文)的内容和要求

微纳米马达通过化学能、光能、电能等不同的能量注入方式进行能量的转化,实现驱动力,。

微纳米马达的主要优点是重量轻、体积小、输出推力大。

这些突出的优势都使得纳米马达在纳米电子学和纳米医疗学科领域的应用前景非常广阔。

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2. 参考文献

1. B. Esteban-Fern#225;ndez de #225;vila, P. Angsantikul, J. Li, W. Gao, L. Zhang, J. Wang,Micromotors Go In Vivo: From Test Tubes to Live Animals, Adv. Funct. Mater. (2017) DOI: 10.1002/adfm.201705640. 2. X. Ma, H. Feng, C. Liang, X. Liu, F. Zeng, Y. Wang, Mesoporous silica as micro/nano-carrier: From passive to active cargo delivery, a mini review, Journal of Materials Science amp; Technology 33 (2017) 1067#8211;1074. 3. Y. Wang, Q.F. Zhao, N. Han, L. Bai, J. Li, J. Liu, E.X. Che, L. Hu, Q. Zhang, T.Y.Jiang, S.L. Wang, Mesoporous silica nanoparticles in drug delivery and biomedical applications, Nanomed. Nanotechnol. Biol. Med. 11 (2015) 313#8211;327. 4. M.W. Ambrogio, C.R. Thomas, Y.L. Zhao, J.I. Zink, J.F. Stoddartt,Mechanized silica nanoparticles: a new frontier in theranostic nanomedicine, Acc. Chem. Res. 44 (2011) 903#8211;913. 5. A. Cha#322;upniak, E. Morales-Narv#225;ez, A. Merkoci,Micro and nanomotors in diagnostics Adv. Drug Deliv. Rev. 95 (2015) 104#8211;116. 6. Z. Wu, Y. Wu, W. He, X. Lin, J. Sun, Q. He, Self‐propelled polymer‐based multilayer nanorockets for transportation and drug release Angew. Chem. Int. Ed. 52 (2013) 7000#8211;7003. 7. J. Li, S. Thamphiwatana, W. Liu, B. Esteban-Fern#225;ndez de #225;vila, P. Angsantikul, E. Sandraz, J. Wang, T. Xu, F. Soto, V. Ramez, X. Wang, W. Gao, L. Zhang, J.Wang,Enteric micromotor can selectively position and spontaneously propel in the gastrointestinal tract, ACS Nano 10 (2016) 9536#8211;9542 8. W. Wang, S. Li, L. Mair, S. Ahmed, T.J. Huang, T.E. Mallouk, Acoustic propulsion of nanorod motors inside living cells Angew. Chem. 126 (2014) 3265#8211;3268. 9. X. Ma, K. Hahn, S. Sanchez, Catalytic mesoporous Janus nanomotors for active cargo delivery, J. Am. Chem. Soc. 137 (2015) 4976#8211;4979. 10. X. Ma, A.C. Hortelatilde;o, T. PatinOtilde;, S. S#225;nchez, Enzyme catalysis to power micro/nanomachines, ACS Nano 10 (2016) 9111#8211;9122. 11. S. Sanchez, A.A. Solovev, Y. Mei, O.G. Schmidt, Dynamics of biocatalytic microengines mediated by variable friction control, J. Am. Chem. Soc. 132 (2010) 13144#8211;13145. 12. X. Ma, S. Sanchez, A bio-catalytically driven Janus mesoporous silica cluster motor with magnetic guidance, Chem. Commun. 51 (2015) 5467#8211;5470 13. A.I. Bunea, I.A. Pavel, S. David, S. G#225;sp#225;r, Sensing based on the motion of enzyme-modified nanorods, Biosens. Bioelectron. 67 (2015) 42#8211;48. 14. X. Ma, A.C. Hortelao, A. Miguel-L#243;pez, S. S#225;nchez, Bubble-Free Propulsion of Ultrasmall Tubular Nanojets Powered by Biocatalytic Reactions, J. Am. Chem. Soc. 138 (2016) 13782#8211;13785. 15. X. Ma, X. Wang, K. Hahn, S. S#225;nchez, Motion control of urea-powered biocompatible hollow microcapsules, ACS Nano 10 (2016) 3597#8211;3605.

3. 毕业设计(论文)进程安排

2017-12-17~2018-01-5 查阅中外文资料,翻译外文资料 要求定期参加讨论 2017-01-06~2018-01-12 撰写开题报告,要求参加开题报告答辩 2017-02-26~2018-03-31 制定实验方案,探索模板法合成管状PEDOT/Pt和PEDOT/SiO2工艺参数,定期汇报实验进展,参与论文讨论 2018-04-01~2018-04-29 电沉积技术及电沉积参数探索,定期讨论 2018-05-01~2014-05-07 撰写中期报告,参加中期检查答辩 2018-05-08~2018-06-09 马达运动行为表征,总结实验结果,补充实验 参加讨论 2018-06-10~2018-06-14 撰写毕业论文,按时完成毕业论文,参加毕业论文答辩

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