Sustainable Strategies in Organic Electronics reviews green materials and devices, sustainable processes in electronics, and the reuse, recycling and degradation of devices. Topics addressed include large-scale synthesis and fabrication of safe device materials processes that neither use toxic reagents, solvents or produce toxic by-products. Emerging opportunities such as new synthetic approaches for enabling the commercialization of pi-conjugated polymer-based devices are explored, along with new efforts towards incorporating materials from renewable resources for a low carbon footprint.� Finally, the book discusses the latest advances towards device biodegradability and recycling. It is suitable for materials scientists and engineers, chemists, physicists in academia and industry.
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Table of Contents
Section 1 Introduction
1. Organic electronics: an overview of key materials, processes and devices
Section 2 Green materials and synthesis
2. Green synthetic approaches to p-conjugated polymers for thin-film transistors and photovoltaics applications
3. Clean synthetic approaches towards small molecule organic electronics
4. New strategies for small organic molecules synthesis based on Thieno [3,4-c] pyrrole-4,6-dione used in optoelectronic devices
5. Sustainable approaches in the design of dielectric materials for thin-film transistors
6. Semiconductive Materials for Organic Electronics and Bioelectronics from Renewable Resources
7. Making OLEDs sustainable from metal free emitters to less energy-intensive processing
8. Green electrolyte-based organic electronic devices
9. Biocompatible and biodegradable organic electronic materials
10. Paper-Based Substrates for Sustainable Optoelectronic Devices
11. Advances in two-dimensional green materials for organic electronics applications
Section 3 Fabrication techniques
12. Green solvents processable organic electronic devices
13. New generation flexible printed photovoltaic
Section 4 Long-term vision for a viable sustainable organic electronic technology
14. End-of-life organic electronics. Which sustainable models?
15. From-Lab-to-Fab: challenges and vision for sustainable organic electronics OPV case
Authors
Assunta Marrocchi Associate Professor, Department of Chemistry, Biology and Biotechnology, University of Perugia, Italy. Assunta Marrocchi received her Ph.D. in Chemical Sciences from the University of Perugia (Italy) in 1999.She is an associate professor in the Department of Chemistry, Biology and Biotechnology at the same Institution. Following graduation, she joined the Technische Universit�t Braunschweig (Germany) as visiting PhD student, and Radboud University Nijmegen (The Netherlands) and the Northwestern University (IL, USA) as visiting scientist.
Her education and professional career are essentially focused on organic synthesis themed research, including advanced organic materials and their application in organic electronics; sustainable conversion of biomass into high added value chemicals, fuels, and materials; heterogeneous catalytic materials for efficient liquid-phase organic reactions. She is leading author/co-author of more than 110 JCR papers, 3 book chapters with ISBN and DOI, two issued patents and two filed patent applications.
