Organische Funktionsschichten in Polymerelektronik und Polymersolarzellen

Organic functional layers in polymer electronics and polymer solar cells Thin layers of organic functional polymers play the predominant role in polymer electronics like organic field effect transistors (OFET's) and in organic photovoltaic devices. The well‐known advantages of these solution‐processable materials opened the way for their welcoming now in application fields, which were fully occupied by inorganic semiconductors in the past. However, the polymer semiconductors show also some disadvantages, like a relatively low charge carrier mobility and a not yet sufficient long‐term stability. However, fore the aim of R&D for polymer electronics is not the replace of well‐tried electronic materials and technologies but the opening of new application fields for the new kind of low‐cost /low‐performance electronics. The paper presents recent results of OFET's with thin layers from conjugated polymers like poly(3‐alkylthiophenes), as active semiconducting material, and poly(4‐vinylphenol) as gate dielectricum. Experiments concerning generation of source‐drain electrodes based on polyaniline or Baytron P by laser ablation are represented. Additionally, printing techniques or laser modification are used for patterning of conducting polymers. The described polymer solar cells use for the photoactive layer a composite from polyalkylthiophenes, as light absorbing and charge generating polymer, and fullerene derivatives, responsible for fast electron transfer. Donator‐acceptor cells containing substituted fullerenes give also internationally the best efficiency with η ≈ 3%.