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Palladium and platinum-based nanoparticle functional sensor layers for selective H2 sensing

US9696256B1 · US · B1

Patent metadata
FieldValue
Publication numberUS-9696256-B1
Application numberUS-201514887660-A
CountryUS
Kind codeB1
Filing dateOct 20, 2015
Priority dateOct 20, 2014
Publication dateJul 4, 2017
Grant dateJul 4, 2017

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  1. Title

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  2. Abstract

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  3. Assignees and inventors

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  4. Key dates

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  5. First independent claim

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  6. CPC / IPC classifications

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  7. Citations and related patents

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Abstract

Official abstract text for this publication.

The disclosure relates to a plasmon resonance-based method for H 2 sensing in a gas stream utilizing a hydrogen sensing material. The hydrogen sensing material is comprises Pd-based or Pt-based nanoparticles having an average nanoparticle diameter of less than about 100 nanometers dispersed in an inert matrix having a bandgap greater than or equal to 5 eV, and an oxygen ion conductivity less than approximately 10 −7 S/cm at a temperature of 700° C. Exemplary inert matrix materials include SiO 2 , Al 2 O 3 , and Si 3 N 4 as well as modifications to modify the effective refractive indices through combinations and/or doping of such materials. The hydrogen sensing material utilized in the method of this disclosure may be prepared using means known in the art for the production of nanoparticles dispersed within a supporting matrix including sol-gel based wet chemistry techniques, impregnation techniques, implantation techniques, sputtering techniques, and others.

First claim

Opening claim text (preview).

What is claimed is: 1. A method of evaluating a hydrogen concentration of a gas stream comprising: placing a hydrogen sensing material in the gas stream, where the hydrogen sensing material comprises, an inert matrix, where the inert matrix is stable at the gas stream temperature, and where the inert matrix is optically transparent over a light wavelength range, and where the inert matrix has a bandgap greater than or equal to 5 eV and has an oxygen ion conductivity of less than 10 −7 S/cm at a temperature of 700° C., a plurality of nanoparticles dispersed in the inert matrix, where a metallic component comprises at least 50 wt. % of the plurality of nanoparticles, where the metallic component consists of one of palladium, platinum, a palladium alloy, a platinum alloy, and combinations thereof, and where the plurality of nanoparticles have an average nanoparticle diameter of less than about 10 nanometers; illuminating the hydrogen sensing material with a light source emitting incident light; collecting exiting light, where the exiting light is light that originates at the light source and is transmitted, reflected, scattered or a combination thereof by the hydrogen sensing material; monitoring an optical signal based on a comparison of the incident light and the exiting light using optical spectroscopy, thereby evaluating the hydrogen concentration of the gas stream. 2. The method of claim 1 where the metallic component comprises palladium, and where an inorganic metal oxide having a formula M a O b comprises at least 50 wt. % of the inert matrix. 3. The method of claim 1 where the metallic component comprises platinum, and where an inorganic metal oxide having a formula M a O b comprises at least 50 wt. % of the inert matrix. 4. The method of claim 1 further comprising: providing a waveguide comprised of a core material; placing the hydrogen sensing material in contact with the core material; emitting the incident light from the light source into the core material and generating an evanescent wave; and illuminating the hydrogen sensing material with the evanescent wave, thereby illuminating the hydrogen sensing material with the light source emitting the incident light.

Assignees

Inventors

Classifications

  • G01N21/47

    Scattering, i.e. diffuse reflection (G01N21/25, G01N21/41 take precedence {G01N21/55 takes precedence}) · CPC title

  • G01N21/554Primary

    detecting the surface plasmon resonance of nanostructured metals, e.g. localised surface plasmon resonance · CPC title

  • G01N21/783Primary

    for analysing gases · CPC title

Patent family

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View patent family 59152406

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Frequently asked questions

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What does patent US9696256B1 cover?
The disclosure relates to a plasmon resonance-based method for H 2 sensing in a gas stream utilizing a hydrogen sensing material. The hydrogen sensing material is comprises Pd-based or Pt-based nanoparticles having an average nanoparticle diameter of less than about 100 nanometers dispersed in an inert matrix having a bandgap greater than or equal to 5 eV, and an oxygen ion conductivity less t…
Who is the assignee on this patent?
Ohodnicki Jr Paul R, Baltrus John P, Brown Thomas D, and 1 more
What technology area does this patent fall under?
Primary CPC classification G01N21/554. Mapped technology areas include Physics.
When was this patent published?
Publication date Tue Jul 04 2017 00:00:00 GMT+0000 (Coordinated Universal Time) (B1). Legal status and post-grant events are not shown on this page.
What related patents are in patentsdb?
We list 8 related publications on this page (citations in our corpus or others sharing the same primary CPC).