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Nanoscale electrochemical interface for detection of analytes

An electrochemical and analyte technology, applied in the field of nanoscale electrochemical interfaces for detecting analytes, can solve the problems of inability to selectively detect quantum properties of physical systems and limited ability to detect quantum properties.

Pending Publication Date: 2020-02-11
PROBIUSDX +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Conventional potentiostats are limited in their ability to detect quantum properties at room temperature in electrochemical systems
In addition, conventional potentiostats cannot selectively detect quantum properties (signatures) of physical systems
For example, conventional potentiostats have not been designed to selectively detect a predetermined range of values ​​that could be indicative of a quantum property of a phenomenon or target (such as an analyte of interest) upon detection.

Method used

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  • Nanoscale electrochemical interface for detection of analytes
  • Nanoscale electrochemical interface for detection of analytes
  • Nanoscale electrochemical interface for detection of analytes

Examples

Experimental program
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Effect test

Embodiment 1

[0156] For the fabrication of the sensor interface structure, a rapid prototyping method has been considered so that the tests on the I–V characteristics of the interface can be done quickly to verify the theoretical results presented in the previous section. A platinum(0.8)-iridium(0.2) wire with a diameter of 0.25 mm (Nanoscience Instruments Inc., Alexandria, Virginia) was cut into 2 cm long pieces and added in standard SC-1 solution ( 100ml deionized water: 10ml H 2 o 2 : 1ml NH 4OH) cleaning. The cleaned wire segments can then be installed in custom holders on the Z-table. The station can lower short lengths of wire into an electrochemical etch bath consisting of 35 g of sodium chloride (Sigma Aldrich, St. Louis, MO) in 200 ml of deionized water. 2.9 ml of perchloric acid (Sigma-Aldrich, St. Louis, MO) was also immersed in the etchant bath in the middle of the annular copper counter electrode. When the wire is immersed in the bath by lowering the Z-table, an AC wavefo...

Embodiment 2

[0160] The current-voltage traces of nanoelectrochemical interfaces fabricated to the above specifications were obtained by applying a swept low-voltage noise bias between the interface and the Ag / AgCl reference electrode, and the current generated across the counter electrode-electrolyte interface was passed through the low-noise The transimpedance amplifier chain is measured as the voltage drop across a series resistor at the opposite electrode node. A custom low voltage noise potentiostat described in the previous section was used for signal application and current measurement. For cyclic voltammetry experiments, the bias voltage was cycled between ±0.3 V at a scan rate well below the maximum limit dictated by the characteristic time scale of the integrated electrochemical interface instrumentation system. For all nanoscale electrochemical interfaces described in this paper, the limiting capacitance of the integrated system used to determine the maximum scan rate was relate...

Embodiment 3

[0162] The typical I-V characteristics of a quantum electrochemical interface are in Figure 7A Shown in , for an interfacial region of 50 nm, functionalization by a monolayer nanoparticle monolayer sandwich consisting of sequentially self-constituting 1,2-ethanedisulfide on an exposed 80–20 platinum-iridium substrate Alcohol, 10 nm gold nanoparticles and 1-mercapto-3-propionic acid. The electrolyte contained 100 mM potassium monohydrogen phosphate and potassium dihydrogen phosphate in a ratio that set the pH of the electrolyte to 7.5. The electrolyte also contained the potassium hexacyano (II and III) ferrate redox couple at a concentration of 1 mM. Arrows indicate the acquired current traces for forward (-0.3 V to 0.3 V) and reverse (0.3 V to -0.3 V) scans at a scan rate of 1 mV / min. The current measured at each 1mV voltage increment is the average of a thousand acquisition data points sampled at 30-second intervals, with a 30-second delay set before acquisition to allow t...

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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...

Claims

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Application Information

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IPC IPC(8): G01N27/00
CPCG01N27/416G01N27/30B82Y15/00G01N33/5438G01N33/6812G01N27/48
Inventor C·古普塔
Owner PROBIUSDX
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