Mesoporous silica film from a solution containing a surfactant and methods of making same

Liu, Jun; Domansky, Karel; Li, Xiaohong; Fryxell, Glen E; Baskaran, Suresh; Kohler, Nathan J; Thevuthasan, Suntharampillai; Coyle, Christopher A; Birnbaum, Jerome C

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Title: Mesoporous silica film from a solution containing a surfactant and methods of making same

Abstract

The present invention is a mesoporous silica film having a low dielectric constant and method of making having the steps of combining a surfactant in a silica precursor solution, spin-coating a film from this solution mixture, forming a partially hydroxylated mesoporous film, and dehydroxylating the hydroxylated film to obtain the mesoporous film. It is advantageous that the small polyoxyethylene ether surfactants used in spin-coated films as described in the present invention will result in fine pores smaller on average than about 20 nm. The resulting mesoporous film has a dielectric constant less than 3, which is stable in moist air with a specific humidity. The present invention provides a method for superior control of film thickness and thickness uniformity over a coated wafer, and films with low dielectric constant.

Inventors:

Liu, Jun ^[1]; Domansky, Karel ^[2]; Li, Xiaohong ^[3]; Fryxell, Glen E ^[4]; Baskaran, Suresh ^[4]; Kohler, Nathan J ^[3]; Thevuthasan, Suntharampillai ^[4]; Coyle, Christopher A ^[3]; Birnbaum, Jerome C ^[3]

West Richland, WA
Cambridge, MA
Richland, WA
Kennewick, WA

Issue Date:: Tue Dec 11 00:00:00 EST 2001

Research Org.:: Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)

Sponsoring Org.:: USDOE

OSTI Identifier:: 874160

Patent Number(s):: 6329017

Application Number:: 09/413,062

Assignee:: Battelle Memorial Institute (Richland, WA)

Patent Classifications (CPCs):: C - CHEMISTRY C01 - INORGANIC CHEMISTRY C01B - NON-METALLIC ELEMENTS

H - ELECTRICITY H01 - BASIC ELECTRIC ELEMENTS H01L - SEMICONDUCTOR DEVICES

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C - CHEMISTRY C01 - INORGANIC CHEMISTRY C01B - NON-METALLIC ELEMENTS
C01B37/02 - Crystalline silica-polymorphs, e.g. silicalites {dealuminated aluminosilicate zeolites}

H - ELECTRICITY H01 - BASIC ELECTRIC ELEMENTS H01L - SEMICONDUCTOR DEVICES
H01L21/02164 - {the material being a silicon oxide, e.g. SiO2}
H01L21/02203 - {the layer being porous}
H01L21/02216 - {the compound being a molecule comprising at least one silicon-oxygen bond and the compound having hydrogen or an organic group attached to the silicon or oxygen, e.g. a siloxane}
H01L21/02222 - {the compound being a silazane}
H01L21/02282 - {liquid deposition, e.g. spin-coating, sol-gel techniques, spray coating}
H01L21/02337 - {treatment by exposure to a gas or vapour}
H01L21/31695 - {Deposition of porous oxides or porous glassy oxides or oxide based porous glass}

Y - NEW / CROSS SECTIONAL TECHNOLOGIES Y10 - TECHNICAL SUBJECTS COVERED BY FORMER USPC Y10T - TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
Y10T428/249969 - Of silicon-containing material [e.g., glass, etc.]
Y10T428/249972 - Resin or rubber element

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DOE Contract Number:: AC06-76RL01830

Resource Type:: Patent

Country of Publication:: United States

Language:: English

Subject:: mesoporous; silica; film; solution; containing; surfactant; methods; dielectric; constant; method; steps; combining; precursor; spin-coating; mixture; forming; partially; hydroxylated; dehydroxylating; obtain; advantageous; polyoxyethylene; surfactants; spin-coated; films; described; result; fine; pores; average; 20; nm; resulting; stable; moist; air; specific; humidity; provides; superior; control; thickness; uniformity; coated; wafer; film thickness; porous silica; /427/

Citation Formats


                    Liu, Jun, Domansky, Karel, Li, Xiaohong, Fryxell, Glen E, Baskaran, Suresh, Kohler, Nathan J, Thevuthasan, Suntharampillai, Coyle, Christopher A, and Birnbaum, Jerome C. Mesoporous silica film from a solution containing a surfactant and methods of making same.  United States: N. p., 2001. 
        Web.

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                    Liu, Jun, Domansky, Karel, Li, Xiaohong, Fryxell, Glen E, Baskaran, Suresh, Kohler, Nathan J, Thevuthasan, Suntharampillai, Coyle, Christopher A, & Birnbaum, Jerome C. Mesoporous silica film from a solution containing a surfactant and methods of making same.  United States.

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                    Liu, Jun, Domansky, Karel, Li, Xiaohong, Fryxell, Glen E, Baskaran, Suresh, Kohler, Nathan J, Thevuthasan, Suntharampillai, Coyle, Christopher A, and Birnbaum, Jerome C. Tue .  
        "Mesoporous silica film from a solution containing a surfactant and methods of making same".  United States.  https://www.osti.gov/servlets/purl/874160.

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@article{osti_874160,

  title        = {Mesoporous silica film from a solution containing a surfactant and methods of making same},

  author       = {Liu, Jun and Domansky, Karel and Li, Xiaohong and Fryxell, Glen E and Baskaran, Suresh and Kohler, Nathan J and Thevuthasan, Suntharampillai and Coyle, Christopher A and Birnbaum, Jerome C},

  abstractNote = {The present invention is a mesoporous silica film having a low dielectric constant and method of making having the steps of combining a surfactant in a silica precursor solution, spin-coating a film from this solution mixture, forming a partially hydroxylated mesoporous film, and dehydroxylating the hydroxylated film to obtain the mesoporous film. It is advantageous that the small polyoxyethylene ether surfactants used in spin-coated films as described in the present invention will result in fine pores smaller on average than about 20 nm. The resulting mesoporous film has a dielectric constant less than 3, which is stable in moist air with a specific humidity. The present invention provides a method for superior control of film thickness and thickness uniformity over a coated wafer, and films with low dielectric constant.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {Tue Dec 11 00:00:00 EST 2001},

  month        = {Tue Dec 11 00:00:00 EST 2001}

}

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Works referenced in this record:

Synthesis of a Stable Hexagonally Packed Mesoporous Niobium Oxide Molecular Sieve Through a Novel Ligand-Assisted Templating Mechanism
journal, March 1996

Antonelli, David M.; Ying, Jackie Y.
Angewandte Chemie International Edition in English, Vol. 35, Issue 4
https://doi.org/10.1002/anie.199604261

Templating of Mesoporous Molecular Sieves by Nonionic Polyethylene Oxide Surfactants
journal, September 1995

Bagshaw, S. A.; Prouzet, E.; Pinnavaia, T. J.
Science, Vol. 269, Issue 5228
https://doi.org/10.1126/science.269.5228.1242

A Neutral Templating Route to Mesoporous Molecular Sieves
journal, February 1995

Tanev, P. T.; Pinnavaia, T. J.
Science, Vol. 267, Issue 5199, p. 865-867
https://doi.org/10.1126/science.267.5199.865

A new family of mesoporous molecular sieves prepared with liquid crystal templates
journal, December 1992

Beck, J. S.; Vartuli, J. C.; Roth, W. J.
Journal of the American Chemical Society, Vol. 114, Issue 27, p. 10834-10843
https://doi.org/10.1021/ja00053a020

Recent advances in the synthesis, characterization and applications of mesoporous molecular sieves
journal, February 1996

Beck, Jeffrey S.; Vartuli, James C.
Current Opinion in Solid State and Materials Science, Vol. 1, Issue 1
https://doi.org/10.1016/S1359-0286(96)80014-3

Cooperative organization of inorganic-surfactant and biomimetic assemblies
journal, February 1995

Firouzi, A.; Kumar, D.; Bull, L.
Science, Vol. 267, Issue 5201
https://doi.org/10.1126/science.7855591

Synthesis of hybrid inorganic–organic mesoporous silica by co-condensation of siloxane and organosiloxane precursors
journal, January 1996

Burkett, Sandra L.; Sims, Stephen D.; Mann, Stephen
Chem. Commun., Issue 11
https://doi.org/10.1039/CC9960001367

Ordered mesoporous molecular sieves synthesized by a liquid-crystal template mechanism
journal, October 1992

Kresge, C. T.; Leonowicz, M. E.; Roth, W. J.
Nature, Vol. 359, Issue 6397, p. 710-712
https://doi.org/10.1038/359710a0

Organization of Organic Molecules with Inorganic Molecular Species into Nanocomposite Biphase Arrays
journal, August 1994

Huo, Qisheng; Margolese, David I.; Ciesla, Ulrike
Chemistry of Materials, Vol. 6, Issue 8
https://doi.org/10.1021/cm00044a016

Mesoporous Silica Molecular Sieves Prepared by Ionic and Neutral Surfactant Templating: A Comparison of Physical Properties
journal, January 1996

Tanev, Peter T.; Pinnavaia, Thomas J.
Chemistry of Materials, Vol. 8, Issue 8
https://doi.org/10.1021/cm950549a

Formation of a Porous Zirconium Oxo Phosphate with a High Surface Area by a Surfactant-Assisted Synthesis
journal, March 1996

Ciesla, Ulrike; Schacht, Stefan; Stucky, Galen D.
Angewandte Chemie International Edition in English, Vol. 35, Issue 5
https://doi.org/10.1002/anie.199605411

Synthesis and Characterization of Hexagonally Packed Mesoporous Tantalum Oxide Molecular Sieves
journal, January 1996

Antonelli, David M.; Ying, Jackie Y.
Chemistry of Materials, Vol. 8, Issue 4, p. 874-881
https://doi.org/10.1021/cm9504697

Free-standing and oriented mesoporous silica films grown at the air–water interface
journal, June 1996

Yang, Hong; Coombs, Neil; Sokolov, Igor
Nature, Vol. 381, Issue 6583
https://doi.org/10.1038/381589a0

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Similar Records

Title: Mesoporous silica film from a solution containing a surfactant and methods of making same

Abstract

Citation Formats

Synthesis of a Stable Hexagonally Packed Mesoporous Niobium Oxide Molecular Sieve Through a Novel Ligand-Assisted Templating Mechanism journal, March 1996

Templating of Mesoporous Molecular Sieves by Nonionic Polyethylene Oxide Surfactants journal, September 1995

A Neutral Templating Route to Mesoporous Molecular Sieves journal, February 1995

A new family of mesoporous molecular sieves prepared with liquid crystal templates journal, December 1992

Recent advances in the synthesis, characterization and applications of mesoporous molecular sieves journal, February 1996

Cooperative organization of inorganic-surfactant and biomimetic assemblies journal, February 1995

Synthesis of hybrid inorganic–organic mesoporous silica by co-condensation of siloxane and organosiloxane precursors journal, January 1996

Ordered mesoporous molecular sieves synthesized by a liquid-crystal template mechanism journal, October 1992

Organization of Organic Molecules with Inorganic Molecular Species into Nanocomposite Biphase Arrays journal, August 1994

Mesoporous Silica Molecular Sieves Prepared by Ionic and Neutral Surfactant Templating: A Comparison of Physical Properties journal, January 1996

Formation of a Porous Zirconium Oxo Phosphate with a High Surface Area by a Surfactant-Assisted Synthesis journal, March 1996

Synthesis and Characterization of Hexagonally Packed Mesoporous Tantalum Oxide Molecular Sieves journal, January 1996

Free-standing and oriented mesoporous silica films grown at the air–water interface journal, June 1996

Synthesis of a Stable Hexagonally Packed Mesoporous Niobium Oxide Molecular Sieve Through a Novel Ligand-Assisted Templating Mechanism
journal, March 1996

Templating of Mesoporous Molecular Sieves by Nonionic Polyethylene Oxide Surfactants
journal, September 1995

A Neutral Templating Route to Mesoporous Molecular Sieves
journal, February 1995

A new family of mesoporous molecular sieves prepared with liquid crystal templates
journal, December 1992

Recent advances in the synthesis, characterization and applications of mesoporous molecular sieves
journal, February 1996

Cooperative organization of inorganic-surfactant and biomimetic assemblies
journal, February 1995

Synthesis of hybrid inorganic–organic mesoporous silica by co-condensation of siloxane and organosiloxane precursors
journal, January 1996

Ordered mesoporous molecular sieves synthesized by a liquid-crystal template mechanism
journal, October 1992

Organization of Organic Molecules with Inorganic Molecular Species into Nanocomposite Biphase Arrays
journal, August 1994

Mesoporous Silica Molecular Sieves Prepared by Ionic and Neutral Surfactant Templating: A Comparison of Physical Properties
journal, January 1996

Formation of a Porous Zirconium Oxo Phosphate with a High Surface Area by a Surfactant-Assisted Synthesis
journal, March 1996

Synthesis and Characterization of Hexagonally Packed Mesoporous Tantalum Oxide Molecular Sieves
journal, January 1996

Free-standing and oriented mesoporous silica films grown at the air–water interface
journal, June 1996