Materials Physics -- Polymer Materials Characterization, Modeling and Application -- Thermo-Optic Effects in Polymer Bragg Gratings -- Photorefractive Materials and Devices for Passive Components in WDM Systems -- Thin Films for Microelectronics and Photonics: Physics, Mechanics, Characterization, and Reliability -- Carbon Nanotube Based Interconnect Technology: Opportunities and Challenges -- Virtual Thermo-Mechanical Prototyping of Microelectronics and Microsystems -- Materials Mechanics -- Fiber Optics Structural Mechanics and Nano-Technology Based New Generation of Fiber Coatings: Review and Extension -- Area Array Technology for High Reliability Applications -- Metallurgical Factors Behind the Reliability of High-Density Lead-Free Interconnections -- Metallurgy, Processing and Reliability of Lead-Free Solder Joint Interconnections -- Fatigue Life Assessment for Lead-Free Solder Joints -- Lead-Free Solder Materials: Design For Reliability -- Application of Moire Interferometry to Strain Analysis of PCB Deformations at Low Temperatures -- Characterization of Stresses and Strains in Microelectronics and Photonics Devices Using Photomechanics Methods -- Analysis of Reliability of IC Packages Using the Fracture Mechanics Approach -- Dynamic Response of Micro- and Opto-Electronic Systems to Shocks and Vibrations: Review and Extension -- Dynamic Physical Reliability in Application to Photonic Materials -- High-Speed Tensile Testing of Optical Fibers— New Understanding for Reliability Prediction -- The Effect of Temperature on the Microstructure Nonlinear Dynamics Behavior -- Effect of Material’s Nonlinearity on the Mechanical Response of some Piezoelectric and Photonic Systems -- Physical Design -- Analytical Thermal Stress Modeling in Physical Design for Reliability of Micro- and Opto-Electronic Systems: Role, Attributes, Challenges, Results -- Probabilistic Physical Design of Fiber-Optic Structures -- The Wirebonded Interconnect: A Mainstay for Electronics -- Metallurgical Interconnections for Extreme High and Low Temperature Environments -- Design, Process, and Reliability of Wafer Level Packaging -- Passive Alignment of Optical Fibers in V-grooves with Low Viscosity Epoxy Flow -- Reliability and Packaging -- Fundamentals of Reliability and Stress Testing -- How to Make a Device into a Product: Accelerated Life Testing (ALT), Its Role, Attributes, Challenges, Pitfalls, and Interaction with Qualification Tests -- Micro-Deformation Analysis and Reliability Estimation of Micro-Components by Means of NanoDAC Technique -- Interconnect Reliability Considerations in Portable Consumer Electronic Products -- MEMS Packaging and Reliability -- Advances in Optoelectronic Methodology for MOEMS Testing -- Durability of Optical Nanostructures: Laser Diode Structures and Packages, A Case Study -- Review of the Technology and Reliability Issues Arising as Optical Interconnects Migrate onto the Circuit Board -- Adhesives for Micro- and Opto-Electronics Application: Chemistry, Reliability and Mechanics -- Multi-Stage Peel Tests and Evaluation of Interfacial Adhesion Strength for Micro- and Opto-Electronic Materials -- The Effect of Moisture on the Adhesion and Fracture of Interfaces in Microelectronic Packaging -- Highly Compliant Bonding Material for Micro- and Opto-Electronic Applications -- Adhesive Bonding of Passive Optical Components -- Electrically Conductive Adhesives: A Research Status Review -- Electrically Conductive Adhesives -- Recent Advances of Conductive Adhesives: A Lead-Free Alternative in Electronic Packaging -- Die Attach Quality Testing by Structure Function Evaluation -- Mechanical Behavior of Flip Chip Packages under Thermal Loading -- Stress Analysis for Processed Silicon Wafers and Packaged Micro-devices.