Electrostatic grafting of diamond nanoparticles towards 3D diamond nanostructures

被引:16
|
作者
Girard, H. A. [1 ]
Scorsone, E. [1 ]
Saada, S. [1 ]
Gesset, C. [1 ]
Arnault, J. C. [1 ]
Perruchas, S. [2 ]
Rousseau, L. [3 ]
David, S. [4 ]
Pichot, V. [5 ]
Spitzer, D. [5 ]
Bergonzo, P. [1 ]
机构
[1] CEA, LIST, Diamond Sensors Lab, F-91191 Gif Sur Yvette, France
[2] Ecole Polytech, CNRS, Lab Phys Matiere Condensee, F-91128 Palaiseau, France
[3] Univ Paris Est, ESIEE, ESYCOM, F-93162 Noisy Le Grand, France
[4] Univ Paris 11, Inst Elect Fondamentale, Cent Technol Univ, F-91405 Orsay, France
[5] Inst Francoallemand Rech St Louis ISL, CNRS, NS3E, ISL,UMR 3208, F-68301 St Louis, France
来源
DIAMOND AND RELATED MATERIALS | 2012年 / 23卷
关键词
Diamond nanoparticles; Layer by layer; Electrostatic grafting; 3D diamond growth; FABRICATION; NANOWIRES; NUCLEATION; CRYSTAL;
D O I
10.1016/j.diamond.2012.01.021
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Nanodiamond seeding toward CVD (chemical vapor deposition) synthesis of diamond layers has received growing interest during the last decade. Several methods are now available to disperse highly dense and compact nanodiamond deposits on a substrate, enabling the growth of ultrathin diamond layers with thickness below 70 nm. While these approaches are extremely efficient to deposit nanodiamonds on plane substrates, even on large areas, a limitation still persists for 3D structured substrates. Here, we report on a technique to disperse nanodiamonds on nanometric patterns, allowing the manufacture of diamond nanostructures by a bottom-up approach, such as diamond coated silicon nanodevices or high aspect ratio diamond tips. (C) 2012 Elsevier B.V. All rights reserved.
引用
收藏
页码:83 / 87
页数:5
相关论文
共 50 条
  • [1] Electrostatic Grafting of Diamond Nanoparticles: A Versatile Route to Nanocrystalline Diamond Thin Films
    Girard, Hugues A.
    Perruchas, Sandrine
    Gesset, Celine
    Chaigneau, Marc
    Vieille, Laetitia
    Arnault, Jean-Charles
    Bergonzo, Philippe
    Boilot, Jean-Pierre
    Gacoin, Thierry
    ACS APPLIED MATERIALS & INTERFACES, 2009, 1 (12) : 2738 - 2746
  • [2] Diamond Pixel Detectors and 3D Diamond Devices
    Venturi, N.
    JOURNAL OF INSTRUMENTATION, 2016, 11
  • [3] Simulation of 3D diamond detectors
    Forcolin, G. T.
    Oh, A.
    Murphy, S. A.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2017, 845 : 72 - 75
  • [4] Electrostatic self-assembly of diamond nanoparticles
    Hees, Jakob
    Kriele, Armin
    Williams, Oliver A.
    CHEMICAL PHYSICS LETTERS, 2011, 509 (1-3) : 12 - 15
  • [5] A 3D diamond detector for particle tracking
    Artuso, M.
    Bachmair, F.
    Bani, L.
    Bartosik, M.
    Beacham, J.
    Bellini, V.
    Belyaev, V.
    Bentele, B.
    Berdermann, E.
    Bergonzo, P.
    Bes, A.
    Brom, J-M.
    Bruzzi, M.
    Cerv, M.
    Chau, C.
    Chiodini, G.
    Chren, D.
    Cindro, V.
    Claus, G.
    Collot, J.
    Costa, S.
    Cumalat, J.
    Dabrowski, A.
    D'Alessandro, R.
    de Boer, W.
    Dehning, B.
    Dobos, D.
    Dunser, M.
    Eremin, V.
    Eusebi, R.
    Forcolin, G.
    Forneris, J.
    Frais-Koelbl, H.
    Gan, K. K.
    Gastal, M.
    Goffe, M.
    Goldstein, J.
    Golubev, A.
    Gonella, L.
    Gorisek, A.
    Graber, L.
    Grigoriev, E.
    Grosse-Knetter, J.
    Gui, B.
    Guthoff, M.
    Haughton, I.
    Hidas, D.
    Hits, D.
    Hoeferkamp, M.
    Hofmann, T.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2016, 824 : 402 - 405
  • [6] Diamond coatings on 3D structured steel
    Neto, V. F.
    Vaz, R.
    Ali, N.
    Oliveira, M. S. A.
    Gracio, J.
    DIAMOND AND RELATED MATERIALS, 2008, 17 (7-10) : 1424 - 1428
  • [7] Laser processing in 3D diamond detectors
    Murphy, S. A.
    Booth, M.
    Li, L.
    Oh, A.
    Salter, P.
    Sun, B.
    Whitehead, D.
    Zadoroshnyj, A.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2017, 845 : 136 - 138
  • [8] 3D simulation of vibrating diamond grinding
    Grabchenko, Anatoly
    Fedorovich, Vladimir
    Pyzhov, Ivan
    Kundrák, János
    Manufacturing Technology, 2014, 14 (02): : 153 - 160
  • [9] A 3D diamond detector for particle tracking
    Bachmair, F.
    Baeni, L.
    Bergonzo, P.
    Caylar, B.
    Forcolin, G.
    Haughton, I.
    Hits, D.
    Kagan, H.
    Kass, R.
    Li, L.
    Oh, A.
    Phan, S.
    Pomorski, M.
    Smith, D. S.
    Tyzhneyyi, V.
    Wallny, R.
    Whitehead, D.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2015, 786 : 97 - 104
  • [10] Diamond nanothread-based 2D and 3D materials: Diamond nanomeshes and nanofoams
    Silveira, Julian F. R., V
    Muniz, Andre R.
    CARBON, 2018, 139 : 789 - 800
12345