Handbook of Silicon Based MEMS Materials and Technologies, Third Edition is a comprehensive guide to MEMS materials, technologies, and manufacturing with a particular emphasis on silicon as the most important starting material used in MEMS. The book explains the fundamentals, properties (mechanical, electrostatic, optical, etc.), materials selection, preparation, modeling, manufacturing, processing, system integration, measurement, and materials characterization techniques of MEMS structures.
The third edition of this book provides an important up-to-date overview of the current and emerging technologies in MEMS making it a key reference for MEMS professionals, engineers, and researchers alike, and at the same time an essential education material for undergraduate and graduate students.
- Provides comprehensive overview of leading-edge MEMS manufacturing technologies through the supply chain from silicon ingot growth to device fabrication and integration with sensor/actuator controlling circuits
- Explains the properties, manufacturing, processing, measuring and modeling methods of MEMS structures
- Reviews the current and future options for hermetic encapsulation and introduces how to utilize wafer level packaging and 3D integration technologies for package cost reduction and performance improvements
- Geared towards practical applications presenting several modern MEMS devices including inertial sensors, microphones, pressure sensors and micromirrors
Markku Tilli obtained a degree in Materials Science (Physical Metallurgy) at Helsinki University of Technology (HUT) in 1974. Until 1980 he had various research and teaching positions at HUT specializing in crystal growth technologies. From 1981 to 1984 he managed process research and development in Silicon project at HUT silicon wafer manufacturing pilot plant. Since 1985 he has had various managing positions at Okmetic in research, development and customer support areas, and held a position of Senior Vice President, Research until his retirement in 2018. His MEMS related activities started in 1982 when he developed a process to make double side polished silicon wafers for bulk micromachined sensors. Since then he has developed advanced new silicon wafer types for MEMS, including special epitaxial wafers, SOI and SOI wafers with buried cavities. His publication topics include oxygen precipitation in silicon, silicon crystal growth, wafer cleaning as well as silicon wafer manufacturing technologies and applications in MEMS. He is member of the Technology Academy of Finland and has received the honorary degree of Doctor of Science in Engineering from Aalto University.
Dr. Mervi Paulasto-Kröckel is professor at Aalto University School of Electrical Engineering in Finland. She studied materials science and semiconductor technology in Helsinki University of Technology, and gradudated as MSc Tech in 1990. She continued her studies in the Technical Universities of Aachen (RWTH Aachen) and Helsinki and attained her doctoral degree in 1995. After a 2-years post-doctoral appointment at the Joint Research Centre of European Commission in the Netherlands, her professional career continued in the electronics industry. She was a Staff Principal Engineer at Motorola Semiconductor Products Sector in Munich. In 2004 Paulasto-Kröckel joined Infineon Technologies where she was the Director Package Development responsible for semiconductor assembly and interconnect development for automotive products worldwide.
At the end of 2018 Dr. Paulasto-Kröckel became a professor at Helsinki University of Technology, which is now called Aalto University after a merger with two other leading universities in the Helsinki area. Her current research focus is on advanced materials and interconnect technologies for MEMS/NEMS and power electronics, as well as multi-material assemblies behavior under different loads and their characteristic failure mechanisms. Her group has extensive experience in studying interactions and interfacial reactions between dissimilar materials, such as different oxide and nitride materials, metals and semiconductors. The group has developed a combined methodology approach to solve multi-materials compatibility issues in microelectronics and microsystems.
Prof. Paulasto-Kröckel has over 110 international publications in the fields of microelectronics packaging and interfacial compatibility of dissimilar materials. She is IEEE EPS Distinguished Lecturer and a member of the Finnish Academy of Technical Sciences.
Matthias Petzold is Professor, Fraunhofer Institute for Microstructure of Materials and Systems IMWS, Germany. His research focuses on physical failure analysis of semiconductor materials, on strength and reliability properties of MEMS, on material diagnostics in microelectronics packaging and on innovative methods and instrumentation for microstructure diagnostics and mechanical testing. He is currently heading the institute’s Center for Applied Microstructure Diagnostics (CAM) and is deputy director of the Fraunhofer institute for Microstructure of Materials and Systems IMWS in Halle.
Horst Theuss is Lead Principal, Infineon Technologies AG, Germany, where he is today responsible for Backend predevelopments focusing on new packages for MEMS and sensors. Since 2000, he has worked on a variety of assembly technologies and concepts in the field of discrete semiconductors, wafer level packaging, cavity packaging, materials and integration concepts.
Teruaki Motooka received PhD degree in 1981 in Applied Physics from Kyushu University. He was a research scientist in the Central Research Laboratory, Hitachi Ltd. for 1971-1984, a visiting research assistant professor at University of Illinois at Urbana-Champaign, USA for 1984-1988, an associate professor in the Institute of Applied Physics at University of Tsukuba, Japan for 1988-1993, and became a full professor at Kyushu University in 1993. He retired from Kyushu University in 2010.
He has published more than 150 scientific papers on various international journals and these papers have been cited more than 2000 times.
