Materials Science for Technological Applications – Microelectronics

This specialization provides introductory knowledge and understanding of key concepts in Materials Science that are vital to roles in the microelectronics industry. Some of the position titles that may benefit from this course include Materials Engineer, Chemical Engineer, Electrical Engineer, Aerospace Engineer, Materials Quality Control.

This advanced specialization extends upon the initial Materials Science specialization. Multiple roles in the micro electronics industry will benefit from the knowledge contained in this specialization, including Materials Engineer, Chemical Engineer, Electrical Engineer and Materials Quality Control.

This specialization teaches how to make effective prototypes, an essential skill in the microelectronics industry and advanced manufacturing.The specialization addresses fundamentals of prototype design, highlighting best practices for different materials and manufacturing equipment.

This specialization will help learners to understand how prototyping can be accelerated in microelectronics and beyond through the use of 3D printing. Learners who complete this specialization will obtain a rich understanding of the key roles of prototyping in engineering and product development processes and how to use various types of 3D printing technologies.

This specialization, jointly developed by ASU and Intel, provides a foundational understanding of semiconductor packaging is, how packaging is designed and made, and how it works to finish, connect and protect functional parts.

This Battery Technologies specialization builds an in-depth understanding of batteries for applications in microelectronics and electric vehicles, addressing battery applications, architecture, cell chemistries, battery charging, battery management Systems and more.

Learn about the growing field of additive manufacturing through an introduction to six different processes widely used in the microelectronics industry. This specialization is designed for learners interested in the applied basics of additive manufacturing processes and designs, including specific 3D printing methods.