Start Date
4-10-2021 3:45 PM
End Date
4-10-2021 5:00 PM
Access Type
Open Access
Abstract
3D-printed electrochemical devices have gained tremendous attention because they are highly customizable platforms for analysis and energy storage that can be produced using simple, inexpensive components. A major advantage of 3D printing is that once a digital design file is produced, a designer can send the design file of a functioning device anywhere in the world over the internet, and the device can be made at the point of use. The power of this approach is that it enables non-expert users to fabricate real devices and make measurements to enable citizen science. Here I will discuss my group’s recent efforts to develop tools for making trace measurements that can be fabricated on-demand using 3D-printing.
Biography
Glen O’Neil earned a BS in Chemistry from the University of Delaware and a PhD in Chemistry from Tufts University. He joined the faculty at Montclair State in 2016 after postdocs at the University of Warwick (UK) and Columbia University. His group works on developing creative new tools for making measurements in complex systems. He has received an CAREER Award from the National Science Foundation and a Cottrell Scholar Award from the Research Corporation for Science Advancement.
Additional Links
ORCID
Lab on a bit: 3D printing customized hydrodynamic electrochemical devices
3D-printed electrochemical devices have gained tremendous attention because they are highly customizable platforms for analysis and energy storage that can be produced using simple, inexpensive components. A major advantage of 3D printing is that once a digital design file is produced, a designer can send the design file of a functioning device anywhere in the world over the internet, and the device can be made at the point of use. The power of this approach is that it enables non-expert users to fabricate real devices and make measurements to enable citizen science. Here I will discuss my group’s recent efforts to develop tools for making trace measurements that can be fabricated on-demand using 3D-printing.