Skip to main content
MIT Corporate Relations
MIT Corporate Relations
Search
×
Read
Watch
Attend
About
Connect
MIT Startup Exchange
Search
Sign-In
Register
Search
×
MIT ILP Home
Read
Faculty Features
Research
News
Watch
Attend
Conferences
Webinars
Learning Opportunities
About
Membership
Staff
For Faculty
Connect
Faculty/Researchers
Program Directors
MIT Startup Exchange
User Menu and Search
Search
Sign-In
Register
MIT ILP Home
Toggle menu
Search
Sign-in
Register
Read
Faculty Features
Research
News
Watch
Attend
Conferences
Webinars
Learning Opportunities
About
Membership
Staff
For Faculty
Connect
Faculty/Researchers
Program Directors
MIT Startup Exchange
11.15-16.23-RD-Jaramillo
Conference Video
|
Duration: 28:01
November 16, 2023
Preview
11.15-16.23-RD-Jaramillo
Please
login
to view this video.
Video details
Recent decades have seen exciting explosions of research into new and lesser-studied semiconductors, including such broad categories as complex-structured nitrides and chalcogenides and layered and two-dimensional (2D) materials. Even so, silicon has further consolidated its position as the leading material for computing, solar energy conversion, and even for some optoelectronics. In light of this friendly but often overmatched competition with silicon, I will motivate continued innovation in new semiconducting materials and present materials development projects in my research group that address future technology and market needs. I will highlight research on forming high-performance semiconductor-dielectric interfaces with 2D materials for transistors and on exploring new perovskite semiconductors for solar cells. Throughout, I will emphasize how choices in fundamental research topics can address the manufacturability of future semiconductor technologies.
Locked Interactive transcript
Please
login
to view this video.
Video details
Recent decades have seen exciting explosions of research into new and lesser-studied semiconductors, including such broad categories as complex-structured nitrides and chalcogenides and layered and two-dimensional (2D) materials. Even so, silicon has further consolidated its position as the leading material for computing, solar energy conversion, and even for some optoelectronics. In light of this friendly but often overmatched competition with silicon, I will motivate continued innovation in new semiconducting materials and present materials development projects in my research group that address future technology and market needs. I will highlight research on forming high-performance semiconductor-dielectric interfaces with 2D materials for transistors and on exploring new perovskite semiconductors for solar cells. Throughout, I will emphasize how choices in fundamental research topics can address the manufacturability of future semiconductor technologies.
Locked Interactive transcript