Additive manufacturing, also called rapid prototyping or 3D printing is a disruptive manufacturing technique with a significant impact in electronics. With 3D printing, bulk objects with circuitry are embedded in the volume of an element or conformally coated on the surface of existing parts, allowing design and manufacturing of smaller and lighter products with fast customisation. The book covers both materials selection and techniques. The scope also covers the research areas of additive manufacturing of passive and active components, sensors, energy storage, bioelectronics and more.
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This book presents a deep and thoughtful amalgamation of a large literature on 3D printing (or additive manufacturing) for electronics applications. It offers broad coverage of topics such as printed quantum dot-light emitting diodes, multi-material printing, bioelectronics and biodegradable 3D printed electronics.
The care, clarity and depth of most of the chapters contained in that book are admirable. Additionally, the book contains a large reference list, sufficient to whet the appetite of most readers. I highly recommend this book as the source of inspiration for graduate students in materials science and scientists involved in the studies of electrical and mechanical properties of materials.
Review by Christian Brosseau, Optica Fellow and professor of physics, Université de Bretagne Occidentale, Brest, France.
The care, clarity and depth of most of the chapters contained in that book are admirable. Additionally, the book contains a large reference list, sufficient to whet the appetite of most readers. I highly recommend this book as the source of inspiration for graduate students in materials science and scientists involved in the studies of electrical and mechanical properties of materials.
Review by Christian Brosseau, Optica Fellow and professor of physics, Université de Bretagne Occidentale, Brest, France.
This book presents a deep and thoughtful amalgamation of a large literature on 3D printing (or additive manufacturing) for electronics applications. It offers broad coverage of topics such as printed quantum dot-light emitting diodes, multi-material printing, bioelectronics and biodegradable 3D printed electronics.
The care, clarity and depth of most of the chapters contained in that book are admirable. Additionally, the book contains a large reference list, sufficient to whet the appetite of most readers. I highly recommend this book as the source of inspiration for graduate students in materials science and scientists involved in the studies of electrical and mechanical properties of materials.
Review by Christian Brosseau, Optica Fellow and professor of physics, Université de Bretagne Occidentale, Brest, France.
The care, clarity and depth of most of the chapters contained in that book are admirable. Additionally, the book contains a large reference list, sufficient to whet the appetite of most readers. I highly recommend this book as the source of inspiration for graduate students in materials science and scientists involved in the studies of electrical and mechanical properties of materials.
Review by Christian Brosseau, Optica Fellow and professor of physics, Université de Bretagne Occidentale, Brest, France.