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- Plasma modification (4)
- Introduction of functional groups (3)
- Peel strength (2)
- Pulsed plasma polymerization (2)
- Reactions at polymer surfaces (2)
- r.f. pulsed plasma (2)
- Acrylic acid (1)
- Adhesion promoting interlayers (1)
- Adhesion-promoting plasma polymer layers (1)
- Al-functional group interactions (1)
- Allyl alcohol (1)
- Allylamine (1)
- Aluminium (1)
- Charcterization of homo- and copolymers (1)
- Chemical conversion of functional groups (1)
- Conducting films (1)
- Copolymers (1)
- Metal-polymer interactions (1)
- Metal-polymer interface (1)
- Metal-polymer systems (1)
- Oxygen low-pressure plasma treatment of polymers (1)
- Plasma polymer (1)
- Plasma polymers with functional groups (1)
- Plasma-initiated copolymerization (1)
- Polyethylene (1)
- Polypropylene (1)
- Pulsed plasma (1)
- Reactions at Polymer surfaces (1)
- Spacers (1)
Polymers synthesized with plasma techniques are very interesting materials for electronic, optic, and bio compatible applications. Thin films of plasma polymers shows a good adhesion to metals, glass, or other polymers. But the supramolecular structure, the durability, and the chemical and mechanical behavior of these polymers is poorly understood. Therefore dielectric investigations are carried out to study the dynamic behavior of the plasma polymers. As polymer system allyl alcohol/alkene is chosen to get polymers with a defined concentration of hydroxyl groups. The dielectric investigations shows several relaxation processes and a dependency of the dielectric parameters from the ratio of allyl alcohol in the polymer is observed. This results indicated that the alkene monomers were assembled continuous into the polymer matrix.