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毕业论文网 > 任务书 > 化学化工与生命科学类 > 化学工程与工艺 > 正文

氧化石墨烯的溶剂化的密度泛函的研究任务书

 2020-06-09 22:34:29  

1. 毕业设计(论文)的内容和要求

本次毕业论文的主要内容是使用模拟软件,对氧化石墨烯的溶剂化相关性质进行理论研究。

1、通过查阅相关文献和资料,了解氧化石墨烯的性能及用途,尤其在不同溶液中的相关性质; 2、理解密度泛函理论,并熟练掌握模拟软件的一些应用; 3、学会分析实验数据,掌握对实验数据的处理能力; 4、认真进行实验,定期对实验数据进行总结,及时调整实验方案; 5、合理安排实验进程,工作时间不迟到早退。

2. 参考文献

1. Sundar LS, Singh MK, Ramana EV, Ramana V, Singh B, Gr#225;cio J, Sousa ACM (2014) Enhanced thermal conductivity and viscosity of nanodiamond-nickel nanocomposite nanofluids. Sci Rep 4:4039 2. Choi SUS, Eastman JA (1995). Enhancing thermal conductivity of fluids with nanoparticles. 1995 ASME Int. Mech. Eng. Congr. Expo 231:99#8211;105 3. Xie H, Wang J, Xi T, Liu Y, Ai F, Wu Q (2002) Thermal conductivity enhancement of suspensions containing nanosized alumina particles. J Appl Phys 91:4568#8211;4572 4. Krishnamurthy S, Bhattacharya P, Phelan PE, Prasher RS (2006) Enhanced mass transport in nanofluids. Nano Lett 6:419#8211;423 5. Wasan DT, Nikolov AD (2003) Spreading of nanofluids on solids. Nature 423:156#8211;159 6. Eastman JA, Choi SUS, Li S, Yu W, Thompson LJ (2001) Anomalously increased effective thermal conductivities of ethylene glycol-based nanofluids containing copper nanoparticles. Appl Phys Lett 78:718#8211;720 7. Warrier P, Teja A (2011) Effect of particle size on the thermal conductivity of nanofluids containing metallic nanoparticles. Nanoscale Res Lett 6:247 8. Kim SH, Choi SR, Kim D (2007) Thermal conductivity of metal-oxide nanofluids: particle size dependence and effect of laser irradiation. J Heat Transfer 129:298 9. Lee GJ, Kim CK, Lee MK, Rhee CK, Kim S, Kim C (2012) Thermal conductivity enhancement of ZnO nanofluid using a one-step physical method.Thermochim Acta 542:24#8211;27 10. Jyothirmayee Aravind SS, Ramaprabhu S (2012) Graphene wrapped multiwalled carbon nanotubes dispersed nanofluids for heat transfer applications. J Appl Phys 112:124304 11. Harish S, Ishikawa K, Einarsson E, Aikawa S, Chiash S, Shiomi J, Maruyama S (2012) Enhanced thermal conductivity of ethylene glycol with single-walled carbon nanotube inclusions. Int J Heat Mass Transf 55:3885#8211;3890 12. Liu M-S, Lin MC-C, Huang I-T, Wang C-C (2005) Enhancement of thermal conductivity with carbon nanotube for nanofluids. Int Commun Heat Mass Transf 32:1202#8211;1210 13. Yu W, Xie H, Bao D (2010) Enhanced thermal conductivities of nanofluids containing graphene oxide nanosheets. Nanotechnology 21:055705

3. 毕业设计(论文)进程安排

2.25~3.10 文献调研,开题报告 3.11~5.21 开展实验工作 5.21~5.28 中后期实验阶段及数据收集 5.28~6.10 数据整理,撰写论文

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