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Carbon Dioxide Capture and Storage Using Open Frameworks

Detailed Technology Description

This technology demonstrates the exceptional performance of open framework materials possessing accessible metal ions as highly selective carbon dioxide capture and storage networks. They also demonstrate much lower energy requirements to regenerate compared to amine solutions and have a larger uptake capacity than zeolites. Because of the flexibility in the metal ions that can be used, these materials can be tailored to work with any acid gas separation and purification as well as for carbon dioxide capture and storage.

Supplementary Information

Patent Number: US20120133939A1
Application Number: US13377805A
Inventor: Yaghi, Omar M. | Britt, David Kyle | Wang, Bo
Priority Date: 19 Jun 2009
Priority Number: US20120133939A1
Application Date: 21 Feb 2012
Publication Date: 31 May 2012
IPC Current: B01D005302 | B65D008500 | C07F000302 | G01J000346
US Class: 356402 | 095090 | 095139 | 095148 | 096108 | 2060006 | 562476 | 206000
Assignee Applicant: The Regents of the University of California
Title: CARBON DIOXIDE CAPTURE AND STORAGE USING OPEN FRAMEWORKS
Usefulness: CARBON DIOXIDE CAPTURE AND STORAGE USING OPEN FRAMEWORKS
Summary: The method is useful for storing CO 2 , separating it from a gaseous mixture and then transporting to a different location (claimed).
Novelty: Storing carbon dioxide, separating it from gaseous mixture and then transporting to different location, by contacting porous metal organic framework with carbon dioxide containing fluid mixture, and contacting bed of framework with fluid

Industry

Chemical/Material

Sub Category

Chemical/Material Application

Application No.

8876953

Others

Additional Technologies by these Inventors

• Metallation of Open Frameworks
• BORGS: Beyond Open Reticulated Geometries
• Conductive Open Frameworks
• Multi-Dimensional Networks
• Adsorptive Gas Separation of Carbon Dioxide from Methane by Zeolitic Imidazolate Frameworks (ZIFs)
• Reversible Hydrogen Storage Using Metal-Organic Frameworks (MOFs)
• Reversible Ethylene Oxide Capture in Metal Organic Frameworks (MOFs)
• Catalytic Coupling Reactions Using Frameworks with Open-Metal-Sites
• Design and Synthesis of New Metal-Organic Frameworks (MOFs) With Unique Topologies
• Oxidative CH Activation of Non-Activated Alkanes Using Metal-Organic Frameworks (MOFs) as Catalysts

Tech ID/UC Case

19337/2009-676-0

Related Cases

2009-676-0

*Abstract

None

*IP Issue Date

Nov 4, 2014

*Principal Investigator

Name: David Britt

Department:

Name: Bo Wang

Department:

Name: Omar Yaghi

Department:

Country/Region

USA