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[1]雷明凯.Significance of surface integrity on high-performance manufacturing by surface modification[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2021,82(9-12):1831-1842
[2]李昱鹏.Biomimetic Random Arrays of Nanopillars and Nanocones with Robust Antiwetting Characteristics[J],JOURNAL OF PHYSICAL CHEMISTRY C,2021,124(31):17095-17102
[3]Li, Xiaoyu.Antireflection and antiwetting functionalities of plasma-nanotextured polymer surfaces with bio...[J],PLASMA PROCESSES AND POLYMERS,2021,17(11)
[4]李昱鹏,刘霞,李晓宇,朱宝,雷明凯,Akhlesh Lakhtakia.Universally Applicable Fabrication Technique for Biomimetic Nanocone Arrays on Flexible Polymer S...[J],ASME Journal of Micro- and Nano-Manufacturing,2019,7:410031-410038
[5]李昱鹏,李晓宇,朱小鹏,雷明凯,A. Lakhtakia.Polymer Surface Textured with Nanowire Bundles to Repel High- Speed Water Drops[J],Langmuir,2018,34:5871−5879
[6]Muzammil, I.,Li, Y. P.,Li, X. Y.,Lei, M. K..Duty cycle dependent chemical structure and wettability of RF pulsed plasma copolymers of acryl...[J],APPLIED SURFACE SCIENCE,2018,436:411-418
[7]I. Muzammil,D. K. Dinh,M. Imran,H. Sattar,雷明凯,李昱鹏,李晓宇.Tunable surface chemistry and wettability of octa?uorocyclobutane and acrylic acid copolymer com...[J],J. Coat. Technol. Res.,2019
[8]I. Muzammil, Y.P. Li.Tunable wettability and pH-responsiveness of plasma copolymers of acrylic acid and octafluorocycl...[J],Plasma Process Polym.,2017,14:e1700053
[9]刘霞,李昱鹏,李晓宇,雷明凯.等离子体纳米织构化聚丙烯表面的超疏水稳定性研究[J],材料保护,2019,52(9):50-55
[10]蔺新禹,李昱鹏,王豪南,雷明凯.火焰喷涂工艺参数对聚醚醚酮涂层结构与性能的影响[J],材料保护,2019,52(9):18-24,55
[11]朱宝,李昱鹏,朱小鹏,雷明凯.Load carrying capacity of thrust bearing for nuclear coolant pump with boundary slippage and elas...[A],2018,45-50
[12]Li, Y. P.,Li, X. Y.,Zhu, X. P.,Lei, M. K.,Lakhtakia, A..Polymer Surface Textured with Nanowire Bundles to Repel High-Speed Water Drops.[J],Langmuir : the ACS journal of surfaces and colloids,2018,34(20):5871-5879
[13]李昱鹏,雷明凯.丙烯酸和八氟环丁烷等离子体共聚物薄膜制备及润湿性调控研究[A],2017,2
[14]Muzammil, Iqbal,Li, Yupeng,Lei, Mingkai.Tunable wettability and pH-responsiveness of plasma copolymers of acrylic acid and octafluorocy...[J],PLASMA PROCESSES AND POLYMERS,2017,14(10)
[15]李昱鹏,雷明凯.Tunable wettability and pH-responsiveness of plasma[J],Plasma Process Polym.,2017,14:1-10
[16]李昱鹏,Muzammil Iqbal,雷明凯,王嘉雨.等离子体改性聚乙烯纳米线阵列表面的稳定超疏水性研究[A],2015,543-543
[17]李昱鹏,王嘉雨,雷明凯.等离子体纳米织构化聚合物超疏水性表面水滴碰撞机制[A],2015,154-154
[18]李昱鹏,雷明凯.等离子体纳米织构化聚合物表面的浸润性转变[A],2015,1
[19]Li, Y. P.,Zhang, Z. C.,Shi, W.,Lei, M. K..Adhesion enhancement of polyethylene modified by capacitively coupled radio frequency plasma po...[J],9th Asian European International Conference on Plasma Surface Engineering (AEPSE),2014,259(PA):77-82
[20]李昱鹏,王桂芹,雷明凯.激光熔覆碳纳米管/氧化铝复合涂层工艺研究[A],2014,69-69
[21]Li, Y. P.,Lei, M. K..Nanotexturing and Wettability Ageing of Polypropylene Surfaces Modified by Oxygen Capacitively ...[J],JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY,2014,30(10):965-972
[22]李昱鹏,张志超,李声耀,石伟,雷明凯.氧等离子体改性聚乙烯表面的疏水性过回复机制[J],高等学校化学学报,2014,35(8):1816-1821
[23]李昱鹏,雷明凯.Surface Modification of Polyethylene by Capacitively Coupled Radio Frequency Plasma Polymerizatio...[A],2014
[24]李昱鹏,雷明凯.Mechanism of Hydrophobic Over-recovery on Polymer Surface Modified by Oxygen Capacitively Coupled...[A],2014
[25]佟硕,李昱鹏,张伟,朱小鹏,雷明凯.基于腐蚀性能的碳钢管道使役时间评价方法[J],中国核电,2013,6(3):203-208
[26]王桂芹,李昱鹏,叶飞,雷明凯.Microstructure Characterization of Carbon Nanotube Cladding Layers by Laser[A],2013
[27]Li, Y. P.,Shi, W.,Li, S. Y.,Lei, M. K..Transition of water adhesion on superhydrophobic surface during aging of polypropylene modified...[J],SURFACE & COATINGS TECHNOLOGY,2012,213:139-144
[28]雷明凯,朱小鹏,张伟,王桂芹,李昱鹏,袁力江.核泵零部件热处理与表面改性原理及应用[A],2012,1-6
[29]Li, Y. P.,Li, S. Y.,Shi, W.,Lei, M. K..Hydrophobic over-recovery during aging of polyethylene modified by oxygen capacitively coupled ...[J],SURFACE & COATINGS TECHNOLOGY,2012,206(23):4952-4958
[30]李昱鹏,雷明凯.Polyethylene surfaces by plasma nanotexturing from superhydrophilicity to superhydrophobicity wit...[A],2012
[31]李昱鹏,李声耀,雷明凯.等离子体改性构造聚合物纳米线结构及超疏水性研究[A],2011,431-431
[32]Lei, M. K.,Liu, Y.,Li, Y. P..Controllable wettability of poly(ethylene terephthlate) film modified by oxygen combined induct...[J],APPLIED SURFACE SCIENCE,2011,257(16):7350-7358
[33]李昱鹏,雷明凯.Effect of Aging Temperature on Wettability of Polyethylene Surface by Oxygen Capacitively Coupled...[A],2011
[34]Liu, Yang,Li, Yu-peng,Hao, Yin-hu,Lei, Ming-kai.Adhesion of PE modified by capacitively coupled radio frequency plasma-induced graft polymeriza...[J],FRONTIERS OF MATERIALS SCIENCE,2009,3(4):380-385
[35]刘洋,李昱鹏,雷明凯.射频等离子体引发接枝聚合GMA改性聚合物粘接性能研究[A],2009,1
[36]刘洋,高松华,李昱鹏,雷明凯.射频等离子体改性聚乙烯表面的润湿及粘接性能[A],2008,189-191
[37] M.K. Lei., W. Shi, S.Y. Li,Y. P. Li.Hydrophobic Over-recovery during Aging of Polyethylene Modified by Oxygen Capacitively Coupled Ra...[J],Surf. Coat. Technol.,2012,206:4952-4958
[38] M.K. Lei., S.Y. Li, W. Shi,Y. P. Li.Transition of Water Adhesion on Superhydrophobic Surface during Aging of Polypropylene Modified b...,Surf. Coat. Technol.,2012,213:139-144
[39] M.K. Lei.,Y. P. Li.Nanotexturing and Wettability Ageing of Polypropylene Surfaces Modified by Oxygen Capacitively Co...[J],J. Mater. Sci. Technol.,2014,30:965-972
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