Goddard Engineering and Technology Directorate (ETD) Calendar

 

The ETD Events Calendar list upcoming engineering seminars, colloquiums, conferences, town halls and other events of interest to the ETD engineering community. Explore a world of knowledge and innovation though a curated lineup of insightful and engaging events. This information supports a journey of discovery, where experts and enthusiasts converge to share ideas, explore cutting-edge technologies and foster a community of collaboration and learning.

 

 

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Liquid Metals and Gels: Beyond the Terminator for a Soft Future

October 17, 2022 @ 3:30 pm - 5:00 pm

Free

ABSTRACTLiquid metals? Usually the term evokes thoughts of mercury (toxic!) or the Terminator (a villain!). Yet, gallium-based liquid metals are often overlooked despite their remarkable properties: melting points below room temperature, water-like viscosity, low-toxicity, and effectively zero vapor pressure (they do not evaporate). They also have, by far, the largest interfacial tension of any liquid at room temperature. Normally small volumes of liquids with large tension form spherical or hemi-spherical structures to minimize surface energy. Yet, these liquid metals can be patterned into non-spherical shapes (cones, wires, antennas) due to a thin, oxide skin that forms rapidly on its surface. This talk will describe efforts in our research group to harness this oxide to pattern and manipulate metal into useful shapes—such as circuits and particles—that are useful for applications that call for soft and deformable metallic features. Because it is a liquid, it is possible to pattern the metal in unique ways, such as injection or direct-write 3D printing at room temperature to form ultra-stretchable wires, self-healing circuits, and soft logic devices (the latter of which perform logic without semiconductors). Perhaps the most fascinating aspect of liquid metals it the ability to use interfacial electrochemistry chemistry to remove / deposit the oxide to manipulate the surface tension of the metal over unprecedented ranges (from the largest tension of any known liquid to near zero!). This allows manipulating the shape and position of the metal for shape reconfigurable devices. This work has implications for soft and stretchable electronics; that is, devices with desirable mechanical properties for human-machine interfacing, soft robotics, and wearable electronics. For these applications, the choice of the encasing material is also important. Thus, the talk will also discuss efforts in our group to make new types of gels with best-in-class tough mechanical properties that may be used for encapsulation as well as applications such as 3D printing or batteries.

Photo of Dr. Michael Dickey.
Dr. Michael Dickey

SPEAKER Dr. Michael Dickey is the Camille & Henry Professor in the Department of Chemical and Biomolecular Engineering and North Carolina State University. He received a BS in Chemical Engineering from Georgia Institute of Technology (1999) and a PhD from the University of Texas (2006) under the guidance of Professor Grant Willson. From 2006-2008 he was a post-doctoral fellow in the lab of Professor George Whitesides at Harvard University. He is currently the Camille and Henry Dreyfus Professor in the Department of Chemical & Biomolecular Engineering at NC State University. He completed a sabbatical at Microsoft in 2016. Michael’s research interests include soft matter (liquid metals, gels, polymers) for soft and stretchable devices (electronics, energy harvesters, textiles, and soft robotics).



Details

Date:
October 17, 2022
Time:
3:30 pm - 5:00 pm
Cost:
Free
Event Category:

Venue

Online