Chemistry Reference
In-Depth Information
65. M. von Gradowski, B. Jacoby, H. Hilgers, J. Barz, M. Wahl, and M. Kopnarski.
ToF-SIMS characterisation of ultra-thin fluorinated carbon plasma polymer films.
Surf. Coat. Technol.
, 200:334-340, 2005.
66. M. Hart, W. Parrish, and N. Masciocci. Studies of texture in thin films using syn-
chrotron radiation and energy dispersive diffraction.
Appl. Phys. Lett.
, 50:897-899,
1987.
67. H. Oettel. Methodik der röntgenographischen Analyse von beschichteten Werkstof-
fen. In D. Bergner, ed.,
Beiträge zur Struktur- und Gefügeanalyse von Werkstoffen
,
Vol. 265, pp. 45-60. Dt. Verl. für Grundstoffindustrie, Leipzig, Germany, 1988.
68. L.G. Parratt. Surface studies of solids by total reflection of x-rays.
Phys. Rev.
,
95:359-369, 1954.
69. H. Wulff and H. Steffen. Characterization of thin films. In R. Hippler, H. Kersten,
M. Schmidt, and K.-H. Schoenbach, eds.,
Low Temperature Plasmas
. Vol. 1, p. 329.
Wiley-VCH, Weinheim, Germany, 2008.
70. H. Yasuda.
Luminous Chemical Vapour Deposition and Interface Engineering
.
Marcel Dekker, New York, 2005.
71. M. Haupt, J. Barz, and C. Oehr. Creation and recombination of free radicals in
fluorocarbon plasma polymers: An electron spin resonance study.
Plasma Process.
Polym.
, 5:33-43, 2008.
72. M. Kuzuya, S. Ito, N. Kondo, and A. Noguchi. Electron-spin-resonance study of the
special features of plasma-induced radicals and their corresponding peroxy-radicals
in polytetrafluoroethylene.
Macromolecules
, 24:6612, 1991.
73. M. Kuzuya, S. Kondo, H. Ito, and A. Noguchi. ESR study on the nature of oxygen
plasma-induced surface radicals of teflon and corresponding peroxy radical reactivity.
Appl. Surf. Sci.
, 60/61:416-420, 1992.
74. M. Kuzuya, S. Kondo, M. Sugito, and T. Yamashiro. Peroxy radical formation
from plasma-induced surface radicals of polyethylene as studied by electron spin
resonance.
Macromolecules
, 31:3230-3234, 1998.
75. J. Janca and A. Czernichowski. Wool treatment in the gas flow from gliding discharge
plasma at atmospheric pressure.
Surf. Coat. Technol.
, 98:1112-1115, 1998.
76. R. Wilken, A. Holländer, and J. Behnisch. Surface radical analysis on plasma-treated
polymers.
Surf. Coat. Technol.
, 116-119:991-995, 1999.
CHAPTER 8
1. J.C. Whitehead. Plasma catalysis: A solution for environmental problems.
Pure Appl.
Chem.
, 82(6):1329-1336, 2010.
2. A. Indarto, J.-W. Choi, H. Lee, and H.K. Song. Decomposition of greenhouse gases
by plasma.
Environ. Chem. Lett.
, 6:215-222, 2008.
3. W. von Siemens. Über die elektrostatische Induction und die Verzeugerung des
Stroms in Flaschendrähten.
Ann. Phys.
, 178(9):66-122, 1857.
4. U. Kogelschatz, B. Eliasson, and W.Egli. Dielectric-barrier discharges. principle and
applications.
J. Phys. IV
, 07(C4):47-66, 1997.
5. V.G. Samoilovich, V.I. Gibalov, and K.V. Kozlov.
Physical Chemistry of the Barrier
Discharge
. DVS, Düsseldorf, Germany, 1997.
6. K.V. Kozlov. In
Proceedings of the 7th International Symposium on High Pressure
LowTemperaturePlasmaChemistry
,Greifswald,Germany,Vol.2,pp.292-298,2000.
