(736e) Integration of Reactive Polymeric Nanofilms into a Low-Power Microelectromechanical Switch | AIChE

(736e) Integration of Reactive Polymeric Nanofilms into a Low-Power Microelectromechanical Switch

Authors 

Tenhaeff, W. E. - Presenter, Massachusetts Institute of Technology
Arora, W. J. - Presenter, Massachusetts Institute of Technology
Barbastathis, G. - Presenter, Massachusetts Institute of Technology


An ultrathin microelectromechanical switch with integrated reactive polymeric nanofilms has been fabricated and demonstrated for selective chemical sensing. Microcantilevers were etched from 100 nm thick silicon nitride membranes and were coated with 75 nm of crosslinked copolymer films via initiated chemical vapor deposition. Two crosslinking densities were compared; it was shown that the higher crosslinking densities yield greater cantilever deflection upon the reaction of the polymer with analytes. Volumetric confiments imposed by crosslinking were thought to be responsible for the greater stress. Deflections of greater than 50 µm enabled the design of the switch with simple electrical resistance-based outputs. Upon exposure to a hexylamine vapor-phase concentration of 0.9 mol%, the resistance dropped by over six orders of magnitude in less than 90 seconds. The sensor does not respond to nitrogen vapor saturated with heptane or isopropanol, showing that chemical reaction is necessary for signal transduction. In the ?off? state, the switch is open and draws negligible power.

Multiple polymer chemistries have been investigated, and potential defense applications for the sensor will be discussed. Furthermore, alternative device designs will be described.