Jones Seminar: Scalable Nanomanufacturing for Flexible Electronics and Energy Devices

Optional ZOOM LINK
Meeting ID: 962 3557 9087
Passcode: 651327

Emerging energy and electronics technologies such as lightweight solar cells, low power computing devices, and earth-abundant water splitting could help power the renewable energy transition, but their impact is limited by their performance and manufacturability. Here we pose that scalable nanomanufacturing via printing could address these needs by allowing low-cost integration of high-performance materials over large areas and in new 3D geometries.

We apply printing to three challenges in scalable fabrication: 1) How to print high performance ultrathin semiconductors for wearable electronics, 2) how to design inks for printing large area solar cells, and 3) how to print 3D electrodes for energy devices. 

Our goal is to push the limits of 2D and 3D electronics—engineering the electrostatics of semiconductors at the nanoscale and exploiting the physics of 3D electrodes at the microscale. We show how advanced fabrication capabilities can yield device physics insights regarding quantum confinement and heterostructures of oxide semiconductors, high-frequency skin effects in stretchable conductors, and fluid instabilities in metal halide perovskites. By understanding the underlying physics, we aim to enable devices for driving disruptive computing, sensing, and energy technologies.

Hosted by Professor Jifeng Liu.

About the Speaker(s)

Will Scheideler
Assistant Professor of Engineering, Dartmouth

Will Scheideler graduated summa cum laude from Duke in 2013 with BSE degrees in electrical engineering and biomedical engineering. He completed his PhD as an NSF Graduate Research Fellow in electrical engineering at UC Berkeley, where his thesis explored scalable nanomanufacturing of metal oxide electronics. He completed his postdoc in materials science at Stanford, where he studied scalable fabrication and reliability of perovskite solar cells. Will joined Dartmouth in 2019. His research interests include 3-D nanomanufacturing and 2D materials for electronics and energy. 

Contact

For more information, contact Ashley Parker at ashley.l.parker@dartmouth.edu.