Faculty Sponsor(s)
Michael S. Crosser
Location
Jereld R. Nicholson Library: Grand Avenue
Subject Area
Physics/Applied Physics
Description
Understanding the mechanism for charge transfer between electrodes within an electrolyte dissolved in water is vital to better understanding the sources of electrical noise in the system. This research compares the electrical properties of liquid top gated graphene devices with the properties of two metal probes to model the system. By measuring the impedance of these systems at different frequencies, it is possible to develop a model of their electrical properties and to consider techniques to improve signal to noise at graphene interfaces.
Recommended Citation
Duffner, Caitlin M.; Miller, Daniel C. II; and Crosser, Michael S., "Modeling the Behavior of the Surface to Liquid Interfaces in an Electrolytic Liquid" (2016). Linfield University Student Symposium: A Celebration of Scholarship and Creative Achievement. Event. Submission 46.
https://digitalcommons.linfield.edu/symposium/2016/all/46
Modeling the Behavior of the Surface to Liquid Interfaces in an Electrolytic Liquid
Jereld R. Nicholson Library: Grand Avenue
Understanding the mechanism for charge transfer between electrodes within an electrolyte dissolved in water is vital to better understanding the sources of electrical noise in the system. This research compares the electrical properties of liquid top gated graphene devices with the properties of two metal probes to model the system. By measuring the impedance of these systems at different frequencies, it is possible to develop a model of their electrical properties and to consider techniques to improve signal to noise at graphene interfaces.