Sustainable Strategies in Organic Electronics
portes grátis
Sustainable Strategies in Organic Electronics
Marrocchi, Assunta
Elsevier Science Publishing Co Inc
02/2022
592
Mole
Inglês
9780128231470
15 a 20 dias
1000
Descrição não disponível.
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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
2D kagome; Biobased solvents; Biocompatible materials; Biodegradable materials; Bioelectronics; Blade-coating; C-H activation; C-S activation; Carbon nitrides; Conjugated polymers; Conjugated small-molecules; Covalent organic nanosheets; Cross-coupling; Cross-coupling reactions; Cross-dehydrogenative coupling; DSC; Density functional theory; Device physics; Direct arylation; Direct arylation polycondensation; Eco-friendly substrate; Electrical engineering; Electrical materials; End-of-life; Energy engineering; Environmental impacts; First-principles calculations; Flexible electronics; Graph-n-ynes; Green chemistry; Green dielectrics; Green electronics; Green solvents; Green synthesis; Heterostructures; Homo-coupling reactions; Ink jet printing; Life cycle assessment; Many-body perturbation theory; Materials application; Materials chemistry; Materials processing; Materials science; Materials structure; Nanocellulose; One-pot synthesis; Optics; Optoelectronics; Organic compounds; Organic dielectrics; Organic electronics; Organic field-effect transistors; Organic light-emitting diodes; Organic photovoltaics; Organic semiconductors; Organic solar cells; Organic thin-film transistors; Paper-based substrate; Pi-conjugated; Polymer solar cells; Printing methods; Product safety; Renewable feedstocks; Renewable sources; Roll-to-roll processing; Screen printing; Semiconducting materials; Slot-die coating; Small molecules; Solar cells; Spray-coating; Surface science; Sustainable materials; Sustainable processing; TPD; Thin films; Thin-film transistor; Transistors and circuits; WEEE
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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
2D kagome; Biobased solvents; Biocompatible materials; Biodegradable materials; Bioelectronics; Blade-coating; C-H activation; C-S activation; Carbon nitrides; Conjugated polymers; Conjugated small-molecules; Covalent organic nanosheets; Cross-coupling; Cross-coupling reactions; Cross-dehydrogenative coupling; DSC; Density functional theory; Device physics; Direct arylation; Direct arylation polycondensation; Eco-friendly substrate; Electrical engineering; Electrical materials; End-of-life; Energy engineering; Environmental impacts; First-principles calculations; Flexible electronics; Graph-n-ynes; Green chemistry; Green dielectrics; Green electronics; Green solvents; Green synthesis; Heterostructures; Homo-coupling reactions; Ink jet printing; Life cycle assessment; Many-body perturbation theory; Materials application; Materials chemistry; Materials processing; Materials science; Materials structure; Nanocellulose; One-pot synthesis; Optics; Optoelectronics; Organic compounds; Organic dielectrics; Organic electronics; Organic field-effect transistors; Organic light-emitting diodes; Organic photovoltaics; Organic semiconductors; Organic solar cells; Organic thin-film transistors; Paper-based substrate; Pi-conjugated; Polymer solar cells; Printing methods; Product safety; Renewable feedstocks; Renewable sources; Roll-to-roll processing; Screen printing; Semiconducting materials; Slot-die coating; Small molecules; Solar cells; Spray-coating; Surface science; Sustainable materials; Sustainable processing; TPD; Thin films; Thin-film transistor; Transistors and circuits; WEEE
