Daniela Nunes, Ana Pimentel, Pedro Barquinha, M. J. Mendes, J. Coelho, Elvira Fortunato, Rodrigo Martins, Henrique Vazão de Almeida

Flexible Devices Based on Metal Oxides (eBook, PDF)

Achievements and Prospects

• Format: PDF

Produktbeschreibung

Flexible devices based on metal oxides: Achievements and prospects focuses on the integration of flexibility in electronic circuitry, sensing applications, energy conversion and storage, and environmental remediation. Flexibility in these applications offers great potential, especially in the areas of wearable sensors, solar cells, transistors, electronic skin, and human body monitoring. The book investigates flexible and wearable devices based on metal oxide nanostructures or thin films that are capable of bending, rolling, compression, and folding, all while maintaining their performance. Metal oxide nanomaterials display exceptional properties that include mechanical stress tolerance, high optical transparency, high carrier mobilities, wide band gap, high dielectric constant, and superconductivity, amongst others. In some cases, they are also earth abundant, environmentally benign, cost-effective, chemically stable, and compatible with low-cost wet-chemical synthesis routes. The focus of the book is on wearables manufactured using sustainable manufacturing methods and integrated into substrates that are flexible, inexpensive, recyclable, abundant, and lightweight, including polymer, textile, cellulose and cork substrates. - Provides a comprehensive guide to flexibility in next-generation devices and applications - Emphasizes green technologies and sustainability in production, including substrates - Considers current and future problems for the continued development of flexible devices and applications

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Produktdetails

• Verlag: Elsevier Science & Techn.
• Seitenzahl: 450
• Erscheinungstermin: 29. November 2024
• Englisch
• ISBN-13: 9780443216572
• Artikelnr.: 72318705

Autorenporträt

Daniela Nunes is an Assistant Professor at the Materials Science Department of FCT-UNL lecturing the courses of Micro and Nanotechnology seminars and dissertation initiation.Her research mainly focuses on electron microscopy and materials characterization. She is co-author of 50 peer-reviewed papers. She participated on the EU project, CEOPS project with the grant agreement no: 309984.Currently Ana Pimental is working as Post.Doc on the synthesis of ZnO nanoparticles to be used in nanoelectronics.Her main scientific interests include: Synthes of ZnO nanoparticles by microwave assisted hydrothermal method, on glass and paper based substrates, to be used in different application, such as UV sensors catalysis, platform for SERS applications, piezoelectricity and as an antibacterial agent.Pedro Barquinha is an Assistant Professor at the Materials Science Department of FCT-UNL. He is also responsible for 3 research laboratories at CENIMAT focusing on electrical characterization, photolithography and nanofabrication, including the management and operation of a dual-beam SEM-FIB tool.He has been involved in transparent electronics from 2004, covering all the areas from the design, deposition and characterization of conductive, semiconductive and insulating multicomponent oxides, fabrication and advanced characterization of oxide TFTs, to the intregation of these devices on electronic circuits (analog and digital) on flexible substrates. His work on this field contributed to take performance and integration levels of this technology to levels of great interest to the display industry. He is co-author of 98 peer-reviewed papers, with more than 3800 citations. He co-authored 2 books and 2 book chapters on this area as well. He won important scientific prizes, such as the "Stimulus to research 2008 (Calouste Gulbenkian Foundation) and "Innovation Prize for Young Engineers 2008 (Portuguese Order of Engineers) and gave more than 30 invited lectures including 2 key-notes in international scientific conferences and workshops. He was program coordinator in ITC2012 conference and co-organizer of the 1st E-MRS/MRS-J Bilateral Symposia, "Materials Frontier for Transparent Advanced Electronics. Since 2004 he participated in more than 20 research and inovation projects, being currently principal investigator from FCT-UNL on two EU projects (FP7 i-FLEXIS and H2020 Roll-Out).

Inhaltsangabe

Part 1: General considerations 1: Introduction to flexible electronics 2:
Substrates for flexible devices 3: Features of metal oxides deposition on
flexible substrates 4: Printing technology in metal oxide-based flexible
devices Part 2: Energy conversion devices 5: Metal oxides based flexible
supercapacitors 6: Metal oxides based flexible fuels cells 7: Metal oxides
based flexible batteries 8: Novel metal oxide-based materials for light
harvesting and emission 9: Flexible solar cells improved with photonic
metal oxides 10: Metal oxides based flexible nanogenerators Part 3:
Flexible sensors and electronics 11: Metal oxides based flexible gas
sensors 12: Metal oxides based flexible biosensors 13: Metal oxides based
flexible photocatalysts 14: Metal oxides based flexible thin-film
transistors 15: Metal oxides based flexible photodetectors 16: Conclusions
and future perspectives on the field