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研究领域

碳纳米材料的制备、性能与应用 材料表面处理技术 表面改性层摩擦学性能的研究

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1. 王昆林. 材料工程基础. 清华大学出版社,2003 2. 王昆林. 材料工程基础辅导与实验. 清华大学出版社, 2009 3. 韦进全,张先锋,王昆林. 碳纳米管宏观体. 清华大学出版社, 2006 4. P.-Z. Sun, M. Zhu, K.-L. Wang, M.-L. Zhong, J.-Q. Wei, D.-H. Wu, Z.-P. Xu and H.-W. Zhu, Selective ion penetration of graphene oxide membranes, ACS Nano, 7,428-437,2013. 5. Gui XC, Li HB, Zhang LH, Jia Y, Liu L, Li Z, Wei JQ, Wang KL, Zhu HW, Tang ZK, Wu DH, and Cao AY. A Facile Route to Isotropic Conductive Nanocomposites by Direct Polymer Infiltration of Carbon Nanotube Sponges. ACS NANO 5: 4276-4283, 2011. 6. Gui, XC; Cao, AY; Wei, JQ; Li, HB; Jia, Y; Li, Z; Fan, LL; Wang, KL; Zhu, HW; Wu, DH.Soft, Highly Conductive Nanotube Sponges and Composites with Controlled Compressibility. ACS Nano, 2010, 4(4): 2320-2326. 7. Li, XM; Zhu, HW; Wang, KL; Cao, AY; Wei, JQ; Li, CY; Jia,Y; Li, Z; Li,X; Wu, DH. Graphene-on-Silicon Schottky Junction Solar Cells. Advanced Materials, 2010, 22(25): 2743-2748. 8. Gui, XC; Wei, JQ; Wang, KL; Cao, AY; Zhu, HW; Jia, Y; Shu, QK;Wu, DH.Carbon Nanotube Sponges.Advanced Materials, 2010, 22(5): 617-621. 9. Jia Y, Wei J Q, Wang K L, Cao A Y, Shu Q K, Gui X C, Zhu Y Q, Zhuang D M, Zhang G, Ma B B, Wang L D, Liu W J, Wang Z C, Luo J B, Wu D H. Nanotube-Silicon Heterojunction Solar Cells. Advanced Materials, 20: 4594-4598, 2008. 10. Li X, Fan LL, Li Z, Wang KL, Zhong ML, Wei JQ, Wu DH, Zhu HW. Boron Doping of Graphene for Graphene-Silicon P-N Junction Solar Cells. Advanced Energy Materials, 2(4): 425-9, 2012 11. Sun PZ, Zhu M, Wang KL, Zhong ML, Wei JQ, Wu DH, Cheng Y, Zhu HW. Photoinduced Molecular Desorption From Graphene Films. Applied Physics Letters, 101(5):053107, 2012 12. Fan LL, Zou J, Li Z, Li X, Wang KL, Wei JQ, Zhong ML, Wu DH, Xu ZP, Zhu HW. Topology Evolution of Graphene in Chemical Vapor Deposition, a Combined Theoretical/Experimental Approach Toward Shape Control of Graphene Domains. Nanotechnology, 23(11):115605, 2012 13. Fan LL, Fan XL, Wei JQ, Wang KL, Wu DH, Zhu HW. Transformation of Round-Shaped Graphene Disks Into Hexagonal Domains in Cvd. Chemical Vapor Deposition, 18(7-9): 185-90, 2012 14. Jia Y, X L, X LP, L WK, Y CA, Q WJ, W ZH, H WD. Strong,Conductive Carbon Nanotube Fibers as Efficient Hole Collectors. Nanoscale Research Letters, 1(7): 137, 2012 15. Sun PZ, M Z, Z MR, KL W, JQ W, DH W, T S, HW. Z. Graphene Oxide/Titania Hybrid Films with Dual-Uv-Responsive Surfaces of Tunable Wettability. RSC Advances,2(29): 10829-35, 2012 16. Sun PZ*, Ma RZ, Osada M, Sasaki T, Wei JQ, Wang KL, Wu DH, Cheng Y, Zhu HW. The Formation of Graphene-Titania Hybrid Films and their Resistance Change Under Ultraviolet Irradiation. Carbon, 50(12): 4518-23, 2012 17. Gui XC, Li HB, Wang KL, Wei JQ, Jia Y, Li Z, Fan LL, Cao AY, Zhu HW, and Wu DH. Recyclable carbon nanotube sponges for oil absorption. Acta Mater. 59: 4798-4804, 2011. 18. Li XM, Zhao TS, Wang KL, Yang Y, Wei JQ, Kang FY, Wu DH, and Zhu HW. Directly Drawing Self-Assembled, Porous, and Monolithic Graphene Fiber from Chemical Vapor Deposition Grown Graphene Film and Its Electrochemical Properties. Langmuir 27: 12164-12171, 2011. 19. Li Z, Zhang P, Wang KL, Xu ZP, Wei JQ, Fan LL, Wu DH, and Zhu HW. Graphene buffered galvanic synthesis of graphene-metal hybrids. J. Mater. Chem. 21: 13241-13246, 2011. 20. Li Z, Zhu HW, Wang KL, Wei JQ, Gui XC, Li XA, Li CY, Fan LL, Sun PZ, and Wu DH. Ethanol flame synthesis of highly transparent carbon thin films. Carbon 49: 237-241, 2011.

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