[1]肖梅,凌一鸣.低温等离子体在材料表面改性中的应用[J].东南大学学报(自然科学版),2001,31(1):114-118.[doi:10.3969/j.issn.1001-0505.2001.01.026]
 Xiao Mei,Ling Yiming.Application of Cold Plasma in Surface Modification[J].Journal of Southeast University (Natural Science Edition),2001,31(1):114-118.[doi:10.3969/j.issn.1001-0505.2001.01.026]
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低温等离子体在材料表面改性中的应用()
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《东南大学学报(自然科学版)》[ISSN:1001-0505/CN:32-1178/N]

卷:
31
期数:
2001年第1期
页码:
114-118
栏目:
数学、物理学、力学
出版日期:
2001-01-20

文章信息/Info

Title:
Application of Cold Plasma in Surface Modification
作者:
肖梅 凌一鸣
东南大学电子工程系 南京,210096
Author(s):
Xiao Mei Ling Yiming
Department of Electronics Engineering, Southeast University, Nanjing 210096)
关键词:
低温等离子体 表面改性 功能材料
Keywords:
cold plasma surface modification functional material
分类号:
O461
DOI:
10.3969/j.issn.1001-0505.2001.01.026
摘要:
概要介绍了目前低温等离子体在材料表面改性方面的研究进展.材料的许多特性,如金属的表面硬度、耐腐蚀、耐摩擦,聚合物的表面浸润性、亲水性、粘附性以及生物功能材料的生物相容性等,决定了材料的应用.低温等离子体并不改变材料的块材特性而仅影响材料的表面特性.对金属如不锈钢等用氮气等离子源离子注入,可以在表面形成Fe2N,Fe3N和Fe4N的铁的氮化物,提高表面的硬度和耐腐蚀性能; 氧气、氮气等离子体会在聚合物材料表面形成微针孔结构,改善其浸润性、粘附
Abstract:
This paper briefly reviews the research state of surface modification with cold plasma. Many properties of materials like microhardness, corrosion resistance, and tribological properties of metal, wettability, hydrophilicity, and adhesion of polymer and biomaterials’ biocompatibility, often determine their application. The cold plasma can only influence material’s surface properties, but cannot change its bulk property. For example, to metal like stainless steel,N2 ion source ion implantation can form iron’s nitrides like Fe2N,Fe3 and Fe4N which can improve its microhardness and corrosion resistance; O2, N2 plasma can induce the formation of micro-pinhole on the surface of polymer materials, that improves their wettability and adhesion properties. The high-molecular material like poly(2-chloro paraxylyylene) polymerized on biomaterials using plasma polymerization can reduce the adsorption of blood platelet. Therefore cold plasma has a good foreground at the modification of materials.

参考文献/References:

[1] Wang W,Booske J H,Baum C,et al.Modification of bearing steel surface by nitrogen plasma source ion implantation for corrosion protection.Surface and Coating Technology,1999(111):97~102
[2] Sun Y,Bell T.Sliding wear characteristics of low temperature plasma nitride 316 austenitic stainless steel.Wear,1998,218(1):34~42
[3] Hruby V,Kadlec J,Pospichal M.Vacuum arc deposited (TiW)N coatings.In:Military Acad,ed.Le Vide Science and Technique and Applications Proceedings of the 1997 11th International Colloquium on Plasma Processes.Paris:Le Mans,Fr,Soc Francaise du Vide,1997.304~307
[4] Menthe E,Rie K T.Plasma nitriding and plasma nitrocarburizing of electroplated hard chromium to increase the wear and the corrosion properties.In:TU Braunschweig,ed.Surface and Coatings Technology Proceedings of 1997 1st Asian-European International Conference on Plasma Surface Engineering.Switzerland:Elsevier Sequoia S A Lausanne,1999.217~220
[5] Bloyce A,Qi P Y,Dong H,et al.Surface modification of titanium alloys for combined improvements in corrosion and wear resistance.Surface and Coating Technology,1998,107(2-3),125~132
[6] Sun Y,Li X,Bell T.Low temperature plasma carburising of austenitic stainless steel for improved wear and corrosion resistance.Surface Engineering,1999,15(1):49~54
[7] Wierzchon T,Fleszar A.Properties of surface layers on titanium alloy produced by thermo-chemical treatments under glow discharge conditions.Surface and Coating Technology,1997,96(2-3):205~209
[8] Maeindl S,Guenzel R,Richter E,et al.Nitriding of austenitic stainless steels using plasma immerision ion implantation.Surface and Coating Technology,1998,100-101(1-3):372~376
[9] Zeng Z M,Zhang T,Tang B Y,et al.Surface modification of steel by metal plasma immersion ion implantation using vacuum arc plasma source.Surface and Coating Technology,1999,120-121:659~662
[10] Chen Jierong,Wang Xueyan,Tomiii W.Wettability of poly(ethylene terephthalate) film treated with low-temperature plasma and their surface analysis by ESCA.Journal of Applied Polymer Science,1999,72:1327~1333
[11] Moon S I,Jang J.The mechanical interlocking and wetting at the interface between argon plasma treated UHMPE fiber and vinylester resin.Journal of Materials Science,1999,34:4219~4224
[12] Wolany D,Fladung T,Duda L,et al.Combined TOF-SIMS/XPS study of plasma modification and metallization of polyimide.Surface and Interface Analysis,1999,27:609~617
[13] Boerio F J,Tsai Y M.Adhesion of natural rubber to steel substrates:the use of plasma polymerized primers.Rubber Chemistry and Technology,1998,72:199~211
[14] Zhang M C,Kang E T,Neoh K G,et al.Adhesion enhancement of thermally evaporated aluminum to surface graft copolymerized poly(tetrafluoroethylene) film.Journal Adhesion Science Technology,1999,13(7):819~835
[15] Dayss E,Leps G,Meinhardt J.Surface modification for improved adhesion of a polymer-metal compound.Surface and Coating Technology,1999(116-119):986~990
[16] Bourbigot S,Jama C,Le Bras M,et al.New approach to flame retardancy using plasma assisted surface polymerization techniques.Polymer Degradation and Stability,1999,66:153~155
[17] Hendricks Sara K,Kwok Connie,Shen Mingchao,et al.Plasma-deposited membranes for controlled release of antibiotic to prevent bacterial adhesion and biofilm formation.Journal of Biomedical Materials Research,2000,50(21):60~170
[18] Chen Hua,Belfort G.Surface modification of poly(ether sulfone)ultrafiltration membranes by low-temperature plasma-induced graft polymerization.Journal of Applied Polymer Science,1999(72):1699~1711
[19] Muller M,Oehr C.Plasma aminofunctionalisation of PVDF microfiltration membranes:comparison of the in plasma modifications with a grafting method using ESCA and an amino-selective fluorescent probe.Surface and Coating Technology,1999(116-119):802~807
[20] Ferraz M P,Fernandes M H,Trigo Cabbal A,et al.In vitro growth and differentiation of osteoblast-like human bone marrow cells on glass reinforced hydroxyapatite plasma-sprayed coatings.Journal of Materials Science:Materials in Medicine,1999(10):567~576
[21] Wang Changxiang,Chen Zhiqing.Design of HA/Tibiomedical implants with the use of ion-beam-assisted deposition.Journal of Biomedical Engineering,1999,16(2):140~142
[22] Poncin-Epaillard F,Legeay G,Brosse J C.Plasma modification of cellulose derivatives as biomaterials.Journal of Applied Polymer Science,1992,44(9):1513~1522
[23] Czarnowska E,Wierzchon T,Maranda-Niedbala A.Properties of the surface layers on titanium alloy and their biocompatibility in vitro tests.In:Children’s Memorial Health Inst,ed.Journal of Materials Proceeding Technology Proceedings of the 1997 Advances in Materials and Proceedings Technologies.Switzerland:Elsevier Science S A Lausanne,1999.190~194
[24] Hsu S H,Chen W C.Improved cell adhesion by plasma -induced grafting of L-lactide onto polyurethane surface.Biomaterials,2000,l21(4):359~367
[25] Trigwell S, Hayden R D,Nelson K F,et al.Effects of surface treatment on the surface chemistry of NiTi alloy for biomedical applications.Surface and Interface Analysis,1998,26(7):483~489
[26] Baquey C,Palumbo F,Porte-Durrieu M C,et al.Plasma treatment of expanded PTFE offers a way to a biofunctionalization of its surface.Nuclear Instruments and Methods in Physics Research B,1999(151):255~262
[27] Lin J C,Chen Y F,Chen C Y.Surface characterization and platelet adhesion studies of plasma polymerized phosphite and its copolymers with dimethylsulfate.Biomaterials,1999(20):1439~1447
[28] Lahann J,Klee D,Thelen H,et al.Improvement of haemocompatibility of metallic stents by polymer coating.Journal of Materials Science:Materials in Medicine,1999(10):443~448
[29] Ishihara Kazuhiko,Iwasaki Yasuhiko,Nakabayashi Nobuo.Novel biomedical polymers for regulating serious biological reactions.Materials Science and Engineering C:Biomimetic Materials,Sensors and Systems,1998,l6 (4):253~259
[30] Hsiue Ging-Ho,Lee Shyh-Dar,Chang Patricia Chuen-Thuen,et al.Surface characterization and biological properties study of silicone rubber membrane grafted with phospholipid as biomaterial via plasma induced graft copolymerization.Journal of Biomedical Materials Research,1998,42(1):134~147
[31] Ohl A,Schroder K.Plasma-induced chemical micropatterning for cell culturing applications:a brief review.Surface and Coating Technology,1999(116-119):820~830
[32] Ohl A,Schroder K,Keller D,et al.Chemical micropatterning of polymeric cell culture substrates using low-pressure hydrogen gas discharge plasma.Journal of Materials Science:Materials in Medicine,1999,10(12):747~754

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备注/Memo

备注/Memo:
作者简介:肖梅,女,1972年生,讲师.
更新日期/Last Update: 2001-01-20