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Reliability of Organic Compounds in Microelectronics and Optoelectronics

From Physics-of-Failure to Physics-of-Degradation

  • Book
  • © 2022

Overview

Editors:
  1. Willem Dirk van Driel

    1. Delft University of Technology, Delft, The Netherlands

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    You can also search for this editor in PubMed   Google Scholar

  2. Maryam Yazdan Mehr

    1. Delft University of Technology, Delft, The Netherlands

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    You can also search for this editor in PubMed   Google Scholar

  • Provides an overview of different failure mechanisms in different organic materials
  • Presents methodologies for analysing the reliability, failure, and degradation of different organic materials
  • Explains how to correlate product performance and reliability to materials degradation

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Table of contents (17 chapters)

  1. Front Matter

    Pages i-viii
    Download chapter PDF

  2. Degradation Mechanisms of Silicones

    • François de Buyl, Shin Yoshida
    Pages 1-31

  3. Degradation Mechanisms of Aromatic Polycarbonate

    • T. M. Eggenhuisen, T. L. Hoeks
    Pages 33-52

  4. EMC Oxidation Under High-Temperature Aging

    • A. Inamdar, P. Gromala, A. Prisacaru, A. Kabakchiev, Y. Yang, B. Han
    Pages 53-80

  5. Peridynamic Modeling of Thermo-oxidative Degradation in Polymers

    • P. Roy, D. Behera, E. Madenci, S. Oterkus
    Pages 81-104

  6. Molecular Modeling for Reliability Issues

    • Nancy E. Iwamoto
    Pages 105-150

  7. Health Monitoring, Machine Learning, and Digital Twin for LED Degradation Analysis

    • Mesfin Seid Ibrahim, Zhou Jing, Jiajie Fan
    Pages 151-210

  8. Reliability and Failures in Solid State Lighting Systems

    • W. D. van Driel, B. J. C. Jacobs, G. Onushkin, P. Watte, X. Zhao, J. Lynn Davis
    Pages 211-240

  9. Degradation and Failures of Polymers Used in Light-Emitting Diodes

    • M. Yazdan Mehr, W. D. van Driel, G. Q. Zhang
    Pages 241-257

  10. Degradation and Reliability of Organic Materials in Organic Light-Emitting Diodes (OLEDs)

    • Kelley Rountree, J. Lynn Davis, Karmann C. Riter, Jean Kim, Michelle McCombs, Roger Pope
    Pages 259-296

  11. Artificial Intelligence and LED Degradation

    • J. Wei
    Pages 297-316

  12. Degradation Analysis for Reliability of Optoelectronics

    • Cheng Qian, Zeyu Wu, Wei Chen, Jiajie Fan, Xi Yang, Yi Ren et al.
    Pages 317-350

  13. Reliability and Failure of Microelectronic Materials

    • A. Mavinkurve, R. T. H. Rongen, M. van Soestbergen
    Pages 351-413

  14. Degradation and Remaining Useful Life Prediction of Automotive Electronics

    • P. Gromala, A. Inamdar, A. Prisacaru, M. Dressler, A. Kabakchiev
    Pages 415-447

  15. Reliability and Degradation of Power Electronic Materials

    • R. Ross, G. Koopmans
    Pages 449-478

  16. Degradation of Cure-Induced Stress Levels in Micro-electronics

    • Daoguo Yang, L. J. Ernst
    Pages 479-515

  17. Manufacturing for Reliability of Panel-Level Fan-out Packages

    • T. Braun, O. Hölck
    Pages 517-533

  18. Outlook: From Physics of Failure to Physics of Degradation

    • W. D. van Driel, M. Yazdan Mehr, X. J. Fan, G. Q. Zhang
    Pages 535-538

  19. Back Matter

    Pages 539-550
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Keywords

About this book

This book aims to provide a comprehensive reference into the critical subject of failure and degradation in organic materials, used in optoelectronics and microelectronics systems and devices. Readers in different industrial sectors, including microelectronics, automotive, lighting, oil/gas, and petrochemical will benefit from this book. Several case studies and examples are discussed, which readers will find useful to assess and mitigate similar failure cases. More importantly, this book presents methodologies and useful approaches in analyzing a failure and in relating a failure to the reliability of materials and systems.

Editors and Affiliations

  • Delft University of Technology, Delft, The Netherlands

    Willem Dirk van Driel, Maryam Yazdan Mehr

About the editors

Willem Dirk van Driel has a >20-year track record in the reliability domain. Application areas range from healthcare, gas and oil explorations, semiconductors and my current position in Philips Lighting where he is responsible for Solid State Lighting reliability. Besides that, he holds a professor position at the University of Delft, The Netherlands. His scientific interests are solid state lighting, microelectronics and microsystems technologies, virtual prototyping, virtual reliability qualification and designing for reliability of microelectronics and microsystems. He acts as the chair for the organizing committee of the IEEE conference EuroSimE and has authored and co-authored more than 300 scientific publications, including journal and conference papers, book or book chapters and invited keynote lectures. He holds 20 patents. He is a certified DFSS Black Belt.

 

In her PhD and Post-Doc projects Dr. Yazdan Mehr has extensively worked on different aspectsof LED-based products, i.e. materials, design, reliability, and degradation. She developed a deep understanding of correlation between design, materials, and degradation mechanism relationships in LEDs. As well, she has a solid background in Materials Engineering as Dr Yazdan Mehr performed her Master at Materials Engineering Department of TUDelft.

Bibliographic Information

  • Book Title: Reliability of Organic Compounds in Microelectronics and Optoelectronics

  • Book Subtitle: From Physics-of-Failure to Physics-of-Degradation

  • Editors: Willem Dirk van Driel, Maryam Yazdan Mehr

  • DOI: https://doi.org/10.1007/978-3-030-81576-9

  • Publisher: Springer Cham

  • eBook Packages: Engineering, Engineering (R0)

  • Copyright Information: Springer Nature Switzerland AG 2022

  • Hardcover ISBN: 978-3-030-81575-2Published: 01 February 2022

  • Softcover ISBN: 978-3-030-81578-3Published: 02 February 2023

  • eBook ISBN: 978-3-030-81576-9Published: 31 January 2022

  • Edition Number: 1

  • Number of Pages: VIII, 550

  • Number of Illustrations: 35 b/w illustrations, 298 illustrations in colour

  • Topics: Circuits and Systems, Electronics and Microelectronics, Instrumentation, Electronic Circuits and Devices

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