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References
1.
Roth S.
: Chemie in unserer Zeit, 34 , 2000 , 394
2.
Nalwa H.S.
: Handbook of Organic Conductive Molecules and Polymers, 4 Volumes, John Wiley & Sons, Chichester , 1997
3.
Solitons are mobile bonding defects in conjugated polymers which, due to the relationship to other quasi-particles, attracted a great deal of attention in physics in the 80s. As an introduction, see Roth, S, One Dimension Metals – Physics and Materials, Science, VCH, Weinheim, 1995
4.
Mair H.J.
,
Roth S.
Electrically conductive plastics, Carl Hanser Verlag, Munich , 1989
5.
Brendel U.
,
Münstedt H.
: Permanent antielectrostatic materials. Kunststoffe 86 (1996 ) 1, pp 73 –78
6.
Pfeiffer B.
: Plastics filled with stainless steel fibres, Plastverarbeiter 48 (1997 ), 12
7.
Leute U.
: Plastics and EMC, Carl Hanser Verlag, Munich 1997
8.
Thürmer J.
: Functional method to determine the EPA compatibility of mechanical tools. EOS/EDS symposium, Orlando , 1996
9.
Vorbach D.
,
Taeger E.
: Process for producing cellulose fibres and film with a high additive content, DE 4426966 Al, 29.07.1994
10.
Vorbach D.
,
Taeger E.
: Properties of carbon-filled cellulose fibres. TechTextil 1997. Frankfurt am Main, 12/13, May 1997
11.
Fortron Brochure, Ticona GmbH, Frankfurt Sept. 1997
12.
Haverkamp W.B.
,
Lyons P.G.
: IEEE Conferences L.A. CA 16-19.09.1996
13.
Schaumburg G.
,
Stahl M.
: Dielectric analysis, method for material testing and characterisation of plastics. Kunststoffe 85 (1995 ), 11
14.
Plastic metallisation and conductive polymers. Eugen G. Leuze Verlag, Saulgau, 1993 and S. Roth, H.J. Mair: “Electrically conductive plastics”, GAK (Gummi, Fasern, Kunststoffe) 48, 1995 , 634
15.
Ziemelis K.
Nature 393 , 1998 , 619
16.
Sixl H.
et. al. “Flat light-emitting diodes from polymers” Phys. Bl. 54, 225 (1998 )