2018 Activities
2.1 Laser technique deposition of organic films / pixels / multistructures. Structural, morphological and chemical characterization (Part 2)
2.2 Micro processing of samples and their electrical characterization
2.3 Obtaining of multilayered structures; structural and morphological characterization
2.4 OFET structure parameters and studies related to silicon technology/ R-2-R
2.5 Dissemination on a large scale by communicating and publishing national or international results
2.6 Participation in technical and scientific events in specific areas of the project (round tables, workshops, national / international symposiums, national / international fairs)
•Pentacene and rubrene-based organic transistors produced by laser techniques can be used in flexible electronics and R-2-R technology. Organic / biodegradable / green electronics has advantages such as: low costs, fast processing, low processing temperatures, etc. but there are still disadvantages compared to traditional silicon technologies that involve high speed and superior performances. Taking into account the rapid growth of the flexible electronic products market and the global funding of research involved in this field, the IPOD project demonstrates the ability of OFET growth techniques (especially rubrene thin film filings grown by MAPLE) and it is a start line for a product transferable to the industry.