Nanoscale electrochemical interface for detection of analytes

Abstract

A sensor can selectively detect quantum signatures in charge transfer processes via a tunneling current. The sensor can be designed to preferentially detect certain modulations in the tunneling current that can be indicative of a polarization mode or a range of polarization modes of a predetermined analyte. In one aspect, the sensor can include a metal electrode having a first surface and a secondsurface. The sensor can also include an insulator film having a first thickness, a first surface area and a first surface chemistry. The insulator film can be coupled to the metal electrode via the first surface. The sensor can also include a functionalization film having a second thickness, a second surface area and a second surface chemistry. The functionalization film can be coupled to the metal electrode via the second surface.

Description

[0001] Cross References to Related Applications

[0002] This patent application claims priority to U.S. Provisional Patent Application No. 62 / 523,729, entitled "NANOSCALE ELECTROCHEMICAL INTERFACE FOR DETECTION OF ANALYTES," filed June 22, 2017, Said US Provisional Patent Application is hereby incorporated by reference in its entirety.

[0003] Statement Regarding Federally Sponsored Research or Development

[0004] This invention was made with Government support under contract N66001-11-1-4111 awarded by the Defense Advanced Research Projects Agency. The US Government has certain rights in this invention. technical field

[0005] The subject matter described herein relates to the detection of analytes. Background technique

[0006] In electrochemical experiments, potentiostats are often used to probe properties of physical systems, such as the electrochemical interface between solid and liquid phases. The potentiostat uses a three-electrode system, including a referenc...

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