[Quantum-ms] Mark Your Calendar 1/16/25: Scalable Nanomanufacturing for Next Generation Electronics and Energy Devices

[Columbia EE Events]

Hi all, this is happening now! See you soon.

On Mon, Jan 13, 2025 at 11:20 AM Columbia EE Events <
ee-events at ee.columbia.edu> wrote:

> Hi all, just a reminder that this event is this Thursday, 1/16 at the EE
> conference room (13th floor). Looking forward to seeing you there!
>
>
>
> *Time: Thursday, January 16, 2025, 11:00 AM - 12:00 PMLocation: EE
> Conference room, 13th FloorGuest Speaker: Prof. William Scheideler, Thayer
> School of Engineering, Dartmouth College*
>
> On Fri, Jan 3, 2025 at 9:00 AM Columbia EE Events <
> ee-events at ee.columbia.edu> wrote:
>
>> Hi all, just a reminder that this event is on 1/16 at the EE conference
>> room.
>>
>> *Time:* Thursday, January 16, 2025, 11:00 AM - 12:00 PM
>> *Location:* EE Conference room, 13th Floor
>> *Guest Speaker: *Prof. William Scheideler, Thayer School of Engineering,
>> Dartmouth College
>>
>> On Wed, Dec 18, 2024 at 11:19 AM Columbia EE Events <
>> ee-events at ee.columbia.edu> wrote:
>>
>>> *EE Guest Lecture: Scalable Nanomanufacturing for Next-Generation
>>> Electronics and Energy Devices
>>> <https://www.ee.columbia.edu/events/ee-guest-lecture-scalable-nanomanufacturing-next-generation-electronics-and-energy-devices>*
>>>
>>> *Time:* Thursday, January 16, 2025, 11:00 AM - 12:00 PM
>>> *Location:* EE Conference room, 13th Floor
>>> *Guest Speaker: *Prof. William Scheideler, Thayer School of
>>> Engineering, Dartmouth College
>>>
>>> *ABSTRACT*
>>>
>>> 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, 2) How to design inks for
>>> printing large area solar cells, and 3) how to print 3D electrodes for
>>> energy devices. We first focus on an emerging class of two-dimensional (2D)
>>> metal oxide semiconductors printed via roll-based Cabrera Mott surface
>>> oxidation of liquid metals. We discuss the engineering of heterostructures
>>> of 2D oxides as degenerate TCOs and as semiconducting channels for
>>> transparent transistors and we examine the impact of quantum confinement on
>>> their optoelectronic properties towards applications in large area
>>> electronics. We next investigate the physics of roll-based flexography of
>>> metal halide perovskite solar cells, showing the fluid mechanics that
>>> enables large-area patterning at state-of-the-art uniformity to enhance
>>> device performance and stability. Finally, we consider fabrication of
>>> 3D-printed metal oxide microlattices for gas sensing and electrocatalysis,
>>> showing how graph-theory and additive manufacturing can boost efficiency
>>> and enhance 3D mass-transport.
>>>
>>> *BIOGRAPHY*
>>>
>>> Prof. William Scheideler graduated summa cum laude from Duke University
>>> in 2013 with B.S.E. degrees in Electrical Engineering and in Biomedical
>>> Engineering. He completed his Ph.D. as an NSF Graduate Research Fellow in
>>> Electrical Engineering at the University of California, Berkeley, where his
>>> doctoral thesis explored scalable nanomanufacturing of metal oxide
>>> electronics. He completed his postdoctoral studies in Materials Science and
>>> Engineering at Stanford University, where he studied scalable fabrication
>>> and thermomechanical reliability of perovskite solar cells. Will joined the
>>> faculty of Dartmouth College’s Thayer School of Engineering as an Assistant
>>> Professor in 2019, launching the SENSE (Scalable Energy and Nanomaterial
>>> Electronics) Laboratory. His research interests include 3-D
>>> nanomanufacturing and 2D materials for electronics and energy applications.
>>> In 2023, William was a recipient of the SME’s Delcie Durham Outstanding
>>> Young Manufacturing Engineer Award recognizing his research in advanced
>>> electronics manufacturing.
>>>
>>> *Hosted by: Professor John Ioannis Kymissis <johnkym at ee.columbia.edu
>>> <johnkym at ee.columbia.edu>> *
>>>
>>>
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