Highly porous ceramic material and method of using and forming same

Weimer, Alan W.; Liang, Xinhua

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Title: Highly porous ceramic material and method of using and forming same

Abstract

The present invention generally relates to porous ceramic material and to methods of making and using the material. More particularly, the invention relates to methods of forming ceramic materials by depositing material, using atomic layer deposition, onto a sacrificial substrate and to ceramic materials having controlled wall thickness, relatively large pores, and high surface area by weight.

Inventors:: Weimer, Alan W.; Liang, Xinhua

Issue Date:: 2018-11-27

Research Org.:: The Regents of the University of Colorado, Denver, CO (United States)

Sponsoring Org.:: USDOE

OSTI Identifier:: 1495343

Patent Number(s):: 10138169

Application Number:: 14/009,918

Assignee:: The Regents of the University of Colorado, a body corporate (Denver, CO)

Patent Classifications (CPCs):: B - PERFORMING OPERATIONS B01 - PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL B01D - SEPARATION

B - PERFORMING OPERATIONS B01 - PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL B01J - CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY

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B - PERFORMING OPERATIONS B01 - PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL B01D - SEPARATION
B01D39/2093 - {Ceramic foam}

B - PERFORMING OPERATIONS B01 - PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL B01J - CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY
B01J8/24 - according to "fluidised-bed" technique

B - PERFORMING OPERATIONS B82 - NANOTECHNOLOGY B82Y - SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES
B82Y40/00 - Manufacture or treatment of nanostructures

C - CHEMISTRY C04 - CEMENTS C04B - LIME, MAGNESIA
C04B2111/00801 - {Membranes
C04B2111/0081 - {as catalysts or catalyst carriers}
C04B2235/3274 - Ferrites
C04B2235/3289 - Noble metal oxides
C04B35/10 - based on aluminium oxide
C04B35/46 - based on titanium oxides or titanates
C04B38/00 - Porous mortars, concrete, artificial stone or ceramic ware
C04B38/0051 - {characterised by the pore size, pore shape or kind of porosity}
C04B38/0054 - {the pores being microsized or nanosized}
C04B38/0615 - {the burned-out substance being a monolitic element having approximately the same dimensions as the final article, e.g. a porous polyurethane sheet or a prepreg obtained by bonding together resin particles
C04B38/08 - by adding porous substances

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DOE Contract Number:: FG36-05G015044

Resource Type:: Patent

Resource Relation:: Patent File Date: 2012 Apr 03

Country of Publication:: United States

Language:: English

Subject:: 36 MATERIALS SCIENCE

Citation Formats


                    Weimer, Alan W., and Liang, Xinhua. Highly porous ceramic material and method of using and forming same.  United States: N. p., 2018. 
        Web.

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                    Weimer, Alan W., & Liang, Xinhua. Highly porous ceramic material and method of using and forming same.  United States.

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                    Weimer, Alan W., and Liang, Xinhua. Tue .  
        "Highly porous ceramic material and method of using and forming same".  United States.  https://www.osti.gov/servlets/purl/1495343.

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@article{osti_1495343,

  title        = {Highly porous ceramic material and method of using and forming same},

  author       = {Weimer, Alan W. and Liang, Xinhua},

  abstractNote = {The present invention generally relates to porous ceramic material and to methods of making and using the material. More particularly, the invention relates to methods of forming ceramic materials by depositing material, using atomic layer deposition, onto a sacrificial substrate and to ceramic materials having controlled wall thickness, relatively large pores, and high surface area by weight.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {2018},

  month        = {11}

}

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Works referenced in this record:

Atomic layer controlled deposition on particle surfaces
patent, September 2003

George, Steven M.; Ferguson, John D.; Weimer, Alan W.
US Patent Document 6,613,383
URL: https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/6613383

Synthesis of a Novel Porous Polymer/Ceramic Composite Material by Low-Temperature Atomic Layer Deposition
journal, October 2007

Li, Nai-Hong; George, Steven M.; Weimer, Alan W.
Chemistry of Materials, Vol. 19, Issue 22, p. 5388-5394
https://doi.org/10.1021/cm071431k

Template-directed synthesis of porous alumina particles with precise wall thickness control via atomic layer deposition
journal, February 2012

Liang, Xinhua; Li, Nai-Hong; Weimer, Alan W.
Microporous and Mesoporous Materials, Vol. 149, Issue 1
https://doi.org/10.1016/j.micromeso.2011.08.025

Organic Nanowire-Templated Fabrication of Alumina Nanotubes by Atomic Layer Deposition
journal, June 2007

Wang, Chih-Chieh; Kei, Chi-Chung; Yu, Ya-Wen
Nano Letters, Vol. 7, Issue 6, p. 1566-1569
https://doi.org/10.1021/nl070404q

Organic Semiconductor Nanowires for Field Emission
journal, August 2003

Chiu, J.-J.; Kei, C.-C.; Perng, T.-P.
Advanced Materials, Vol. 15, Issue 16, p. 1361-1364
https://doi.org/10.1002/adma.200304918

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Similar Records

Title: Highly porous ceramic material and method of using and forming same

Abstract

Citation Formats

Atomic layer controlled deposition on particle surfaces patent, September 2003

Synthesis of a Novel Porous Polymer/Ceramic Composite Material by Low-Temperature Atomic Layer Deposition journal, October 2007

Template-directed synthesis of porous alumina particles with precise wall thickness control via atomic layer deposition journal, February 2012

Organic Nanowire-Templated Fabrication of Alumina Nanotubes by Atomic Layer Deposition journal, June 2007

Organic Semiconductor Nanowires for Field Emission journal, August 2003

Atomic layer controlled deposition on particle surfaces
patent, September 2003

Synthesis of a Novel Porous Polymer/Ceramic Composite Material by Low-Temperature Atomic Layer Deposition
journal, October 2007

Template-directed synthesis of porous alumina particles with precise wall thickness control via atomic layer deposition
journal, February 2012

Organic Nanowire-Templated Fabrication of Alumina Nanotubes by Atomic Layer Deposition
journal, June 2007

Organic Semiconductor Nanowires for Field Emission
journal, August 2003