Green materials for electronics

Combining the materials science, technological, and device aspects of organic bioelectronics based on green materials, this is the first overview of the emerging concepts involving fabrication techniques for sustainable electronics with low energy and material consumption. With contributions from top-notch editors and authors, in one focus, the book covers a collection of natural materials suited for electronics applications such as paper, silk, melanin, DNA and nucleobases, resins, gums, saccharides, cellulose, gelatine and peptides. In another thrust, the book focuses on device fabrication based on these materials, including processing aspects, and applications such as sensors, signal transducers, transient, implantable and digestible electronics. With its interdisciplinary approach this text will appeal to the chemistry, physics, materials science, and engineering communities.

Foreword and Introduction PART I. NATURAL MATERIALS FOR ELECTRONICS APPLICATIONS Paper Silk Melanin DNA and Nucleobases Natural Dielectrics H-bonded Semiconductors Genetically Engineered Peptides for Electronics PART II. BIOCOMPATIBLE MATERIALS AND SUSTAINABLE PROCESSES FOR GREEN ELECTRONICS Bioelectronic Devices for Sensing and Actuation Organic Materials as Transducers of Neural Signals Low Impedance Biomimetic Conductive Polymer and Bioactive Hydrogel Coatings for Microelectrodes and Biomedical Biosensors Materials for Neural Interfaces Biocompatible Circuits for Human-Machine Interfacing Protonic Devices Biocompatible Materials for Transient Electronics Materials and Devices for Electronic Skin Materials and Devices for Imperceptible Electronics Energy Requirement for High-performance Electronics Fabrication Bioelectronics: Quo Vadis?