Bio and Nano Packaging Techniques for Electron Devices: Advances in Electronic Device Packaging

✍ Scribed by Gerald Gerlach (auth.), Gerald Gerlach, Klaus-Jürgen Wolter (eds.)

Publisher: Springer-Verlag Berlin Heidelberg
Year: 2012
Tongue: English
Leaves: 619
Edition: 1
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

This book discusses future trends and developments in electron device packaging and the opportunities of nano and bio techniques as future solutions. It describes the effect of nano-sized particles and cell-based approaches for packaging solutions with their diverse requirements. It offers a comprehensive overview of nano particles and nano composites and their application as packaging functions in electron devices. The importance and challenges of three-dimensional design and computer modeling in nano packaging is discussed; also ways for implementation are described. Solutions for unconventional packaging solutions for metallizations and functionalized surfaces as well as new packaging technologies with high potential for industrial applications are discussed. The book brings together a comprehensive overview of nano scale components and systems comprising electronic, mechanical and optical structures and serves as important reference for industrial and academic researchers.

✦ Table of Contents

Front Matter....Pages i-xii
Front Matter....Pages 1-1
Packaging for Electronic Systems....Pages 3-30
System Integration by Advanced Electronics Packaging....Pages 31-48
Nano- and Biotechniques for Electronic Device Packaging....Pages 49-76
Front Matter....Pages 77-77
3D Design....Pages 79-96
3D Data Structures for Nanoscale Design....Pages 97-118
Uncertainty-Based Design Optimization of MEMS/NEMS....Pages 119-137
Front Matter....Pages 139-139
Physical Effects of Nanoparticles and Nanoparticle Ensembles: Impact to System Packaging....Pages 141-154
Photochemical Metallization at the Nanoscale....Pages 155-176
Front Matter....Pages 177-177
Nanopatterning and Self-Assembly in Microsystems: An Overview....Pages 179-208
Direct Nanoimprinting for Micro- and Nanosystems....Pages 209-242
Platform Technologies for Pico-liter Printing and Nano-imprinting....Pages 243-267
Nanosphere Lithography....Pages 269-277
Nano Lithography Based on Domain Patterning of Ferroelectrics....Pages 279-291
Ink-Jet Printing of Conductive Nanostructures....Pages 293-303
Nanoparticle-Based Resistors and Conductors....Pages 305-318
Self-Assembly of Nanowire-Based Field-Effect Transistors....Pages 319-334
Front Matter....Pages 335-335
Interfacing of Biosystems....Pages 337-353
Optical Absorption Layers for Infrared Radiation....Pages 355-381
Packaging in Synthetic Biology....Pages 383-418
S-Layer Proteins as Self-Assembly Tool in Nano Bio Technology....Pages 419-426
Front Matter....Pages 335-335
Biofunctionalization of Surfaces Using Ultrathin Nanoscopic Collagen Matrices....Pages 427-441
Front Matter....Pages 443-443
Electromagnetic Aspects in Cell Biology....Pages 445-471
DC Electrodes for Cell Applications....Pages 473-489
Biocompatibility of Packaging Materials....Pages 491-514
Biostability of Electronic Packaging Materials....Pages 515-522
Front Matter....Pages 523-523
Scaling Effects for Miniaturized Solder Interconnects in Electronic Packages....Pages 525-537
Photonic System Integration of Optical Waveguides in MOEMS....Pages 539-556
Biosensing with Optical Waveguides....Pages 557-579
Direct Encapsulation of OLED on CMOS....Pages 581-599
A Hierarchical Modeling Approach of Thermal Vias Using CNT-based Composites....Pages 601-620
Back Matter....Pages 621-628

✦ Subjects

Nanotechnology; Optical and Electronic Materials; Characterization and Evaluation of Materials

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