Gas Separations With Redox-Active Metal-Organic Frameworks
Lower operating and capital costs via improved efficiency, decreased energy usage, and lower (near ambient) operating temperatures.
This material has promise in numerous gas separation and storage applications, including parrafin/olefin separations, oxygen/nitrogen separation, and nitric oxide/nitrous oxide separation. More specifically, potential application include: Separation of oxygen from air via vacuum swing adsorption;Separation of hydrocarbons such as ethane/ethylene, ethylene/acetylene, propane/propylene and others via pressure, temperature or vacuum swing adsorption processes; andSeparation of gases based on preferential electron transfer reactions (i.e. nitric oxide/nitrous oxide).
None
Patent Number: US20130053585A1
Application Number: US13593914A
Inventor: LONG, Jeffrey R. | BLOCH, Eric D. | MURRAY, Leslie
Priority Date: 25 Aug 2011
Priority Number: US20130053585A1
Application Date: 24 Aug 2012
Publication Date: 28 Feb 2013
IPC Current: C07F001502 | B01D005304 | C07C002950 | C07C004532 | C07D030104
US Class: 549523 | 095090 | 095129 | 095138 | 095143 | 096108 | 556146 | 568360 | 568910
Assignee Applicant: The Regents of the University of California
Title: GAS SEPARATIONS WITH REDOX-ACTIVE METAL-ORGANIC FRAMEWORKS
Usefulness: GAS SEPARATIONS WITH REDOX-ACTIVE METAL-ORGANIC FRAMEWORKS
Summary: The method is useful for separating constituent gases.
Novelty: Separating constituent gases from mixed gas stream containing first chemical and second chemical comprises e.g. contacting mixed gas stream with metal-organic framework adsorbent and adsorbing molecules of first chemical to framework
化工/材料
化工/材料应用
Additional Technologies by these Inventors Tech ID/UC Case 21885/2012-013-0 Related Cases 2012-013-0, 2012-009-1
美国
