Fabricating Autonomous Machines for the Cellular Scale
ORAL
Abstract
This talk presents a new approach for fabricating cell-sized robots that can explore their environment, be manufactured en masse, and carry the full power of silicon-based information technology. We fabricate 10 to 100 um walking robots that are powered and controlled wirelessly using embedded silicon photovoltaics. Our robots walk using a new class of voltage controllable, electrochemical actuators made from nanometer thick membranes of platinum. These actuators impose low power requirements yet can carry loads ten thousand times their own weight. Moreover, actuation only requires 200 mV signals, facilitating straightforward integration with silicon microelectronics. Combine, these results present a broad platform that can unite mechanical systems, information processing and control into autonomous robots that operate at the cellular scale.
*We ackowledge funding from the army research office (ARO W911NF-18-1-0032), the Cornell Center for Materials Research DMR-1719875, NSF Grant DMR-1435829, Air Force Office of Scientific Research (AFSOR) MURI Grant FA2386-13-1-4118, and the Kavli Institute at Cornell for Nanoscale Science. The work was performed at Cornell NanoScale Facility, a member of the National Nanotechnology Infrastructure Network (NSF Grant ECCS-0335765).
–
Presenters
-
Marc Miskin
- Physics, Cornell University
- Department of Physics, LASSP, Cornell University
- Laboratory of Atomic and Solid State Physics, Cornell University