Gas aggregation nanocluster source - Reactive sputter deposition of copper and titanium nanoclusters

被引:51
|
作者
Marek, Ales [1 ]
Valter, Jan [1 ]
Kadlec, Stanislav [1 ]
Vyskocil, Jiri [1 ]
机构
[1] HVM Plasma Spol Sro, Prague 15800, Czech Republic
来源
SURFACE & COATINGS TECHNOLOGY | 2011年 / 205卷
关键词
Nanocluster; Reactive sputtering; Cluster formation; Gas aggregation; CLUSTER; GROWTH;
D O I
10.1016/j.surfcoat.2010.12.027
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Copper and titanium nanoclusters in Ar and in Ar+O(2) gas mixtures were prepared using a magnetron based gas aggregation cluster source designed for Ultra High Vacuum operation. A considerable influence of oxygen addition on the formation of clusters was observed even at oxygen-to-argon admixture levels of the order of 1:1000. A quadrupole mass filter determined nanocluster size distribution while the total deposition rate was determined by quartz crystal measurements. (C) 2010 Elsevier B.V. All rights reserved.
引用
收藏
页码:S573 / S576
页数:4
相关论文
共 50 条
  • [1] Deposition of Fluorocarbon Nanoclusters by Gas Aggregation Cluster Source
    Drabik, Martin
    Serov, Anton
    Kylian, Ondrej
    Choukourov, Andrei
    Artemenko, Anna
    Kousal, Jaroslav
    Polonskyi, Oleksandr
    Biederman, Hynek
    PLASMA PROCESSES AND POLYMERS, 2012, 9 (04) : 390 - 397
  • [2] Morphology of Titanium Nanocluster Films Prepared by Gas Aggregation Cluster Source
    Drabik, Martin
    Choukourov, Andrei
    Artemenko, Anna
    Kousal, Jaroslav
    Polonskyi, Oleksandr
    Solar, Pavel
    Kylian, Ondrej
    Matousek, Jindrich
    Pesicka, Josef
    Matolinova, Iva
    Slavinska, Danka
    Biederman, Hynek
    PLASMA PROCESSES AND POLYMERS, 2011, 8 (07) : 640 - 650
  • [3] Deposition of Pt nanoclusters by means of gas aggregation cluster source
    Kylian, O.
    Vales, V.
    Polonskyi, O.
    Pesicka, J.
    Cechvala, J.
    Solar, P.
    Choukourov, A.
    Slavinska, D.
    Biederman, H.
    MATERIALS LETTERS, 2012, 79 : 229 - 231
  • [4] Reactive sputter deposition of titanium dioxide
    Dannenberg, R
    Greene, P
    THIN SOLID FILMS, 2000, 360 (1-2) : 122 - 127
  • [5] Structure and Composition of Titanium Nanocluster Films Prepared by a Gas Aggregation Cluster Source
    Drabik, M.
    Choukourov, A.
    Artemenko, A.
    Polonskyi, O.
    Kylian, O.
    Kousal, J.
    Nichtova, L.
    Cimrova, V.
    Slavinska, D.
    Biederman, H.
    JOURNAL OF PHYSICAL CHEMISTRY C, 2011, 115 (43): : 20937 - 20944
  • [6] Deposition and characterization of Pt nanocluster films by means of gas aggregation cluster source
    Kylian, Ondrej
    Prokes, Jan
    Polonskyi, Oleksandr
    Cechvala, Juraj
    Kousal, Jaroslav
    Pesicka, Josef
    Hanus, Jan
    Biederman, Hynek
    THIN SOLID FILMS, 2014, 571 : 13 - 17
  • [7] KINETICS OF REACTIVE SPUTTER DEPOSITION OF TITANIUM OXIDES
    GERAGHTY, KG
    DONAGHEY, LF
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1976, 123 (08) : 1201 - 1207
  • [8] On the formation of copper nanoparticles in nanocluster aggregation source
    Dutka, Mikhail V.
    Turkin, Anatoliy A.
    Vainchtein, David I.
    De Hosson, Jeff Th. M.
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A, 2015, 33 (03):
  • [9] Nanocluster ion source by plasma-gas aggregation
    Imanaka, M
    Katayama, T
    Ohshiro, Y
    Watanabe, S
    Arai, H
    Nakagawa, T
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2004, 75 (05): : 1907 - 1909
  • [10] High rate reactive magnetron sputter deposition of titanium oxide
    Kubart, T.
    Depla, D.
    Martin, D. M.
    Nyberg, T.
    Berg, S.
    APPLIED PHYSICS LETTERS, 2008, 92 (22)
12345