Search Results - "Gin, Douglas"

Designing the Next Generation of Chemical Separation Membranes by Gin, Douglas L., Noble, Richard D.

“…New materials can be prepared as membranes that may allow their performance to beat long-standing limits. Synthetic membranes are used in many separation…”
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Combination of ionic liquids with membrane technology: A new approach for CO2 separation by Dai, Zhongde, Noble, Richard D., Gin, Douglas L., Zhang, Xiangping, Deng, Liyuan

“…This paper presents details of recent research progress on CO2 separation membranes and membrane processes using ionic liquids (ILs) over the past few years,…”
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Poly(ionic liquid)/Ionic Liquid Ion-Gels with High “Free” Ionic Liquid Content: Platform Membrane Materials for CO2/Light Gas Separations by Cowan, Matthew G, Gin, Douglas L, Noble, Richard D

“…The recycling or sequestration of carbon dioxide (CO2) from the waste gas of fossil-fuel power plants is widely acknowledged as one of the most realistic…”
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Perspective on ionic liquids and ionic liquid membranes by Noble, Richard D., Gin, Douglas L.

“…[Display omitted] ▶ Applications of ionic liquids in membrane systems are increasing. ▶ Use as supported liquid membranes, composite structures, membrane…”
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Room-Temperature Ionic Liquids and Composite Materials: Platform Technologies for CO2 Capture by Bara, Jason E, Camper, Dean E, Gin, Douglas L, Noble, Richard D

“…Clean energy production has become one of the most prominent global issues of the early 21st century, prompting social, economic, and scientific debates…”
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Facile fabrication of CO2 separation membranes by cross-linking of poly(ethylene glycol) diglycidyl ether with a diamine and a polyamine-based ionic liquid by Dai, Zhongde, Ansaloni, Luca, Gin, Douglas L., Noble, Richard D., Deng, Liyuan

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Room-Temperature Ionic Liquid−Amine Solutions: Tunable Solvents for Efficient and Reversible Capture of CO2 by Camper, Dean, Bara, Jason E, Gin, Douglas L, Noble, Richard D

“…Solutions of room-temperature ionic liquids (RTILs) and commercially available amines were found to be effective for the capture of CO2 as carbamate salts…”
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(Cross-Linked Poly(Ionic Liquid)–Ionic Liquid–Zeolite) Mixed-Matrix Membranes for CO2/CH4 Gas Separations Based on Curable Ionic Liquid Prepolymers by Dunn, Collin A, Shi, Zhangxing, Zhou, Rongfei, Gin, Douglas L, Noble, Richard D

“…A three-component (cross-linked poly­(ionic liquid) (PIL)–ionic liquid (IL)–zeolite), mixed-matrix membrane (MMM) platform based on curable IL prepolymers of…”
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Guide to CO2 Separations in Imidazolium-Based Room-Temperature Ionic Liquids by Bara, Jason E, Carlisle, Trevor K, Gabriel, Christopher J, Camper, Dean, Finotello, Alexia, Gin, Douglas L, Noble, Richard D

“…Room-temperature ionic liquids (RTILs) are nonvolatile, tunable solvents that have generated significant interest across a wide variety of engineering…”
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Evaluation of a nanoporous lyotropic liquid crystal polymer membrane for the treatment of hydraulic fracturing produced water via cross-flow filtration by Dischinger, Sarah M., Rosenblum, James, Noble, Richard D., Gin, Douglas L.

“…Current commercial nanofiltration and reverse osmosis membranes are limited in scope and performance due to their physicochemical properties. Desalination of…”
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Application of a lyotropic liquid crystal nanofiltration membrane for hydraulic fracturing flowback water: Selectivity and implications for treatment by Dischinger, Sarah M., Rosenblum, James, Noble, Richard D., Gin, Douglas L., Linden, Karl G.

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Ending Aging in Super Glassy Polymer Membranes by Lau, Cher Hon, Nguyen, Phuc Tien, Hill, Matthew R., Thornton, Aaron W., Konstas, Kristina, Doherty, Cara M., Mulder, Roger J., Bourgeois, Laure, Liu, Amelia C. Y., Sprouster, David J., Sullivan, James P., Bastow, Timothy J., Hill, Anita J., Gin, Douglas L., Noble, Richard D.

“…Aging in super glassy polymers such as poly(trimethylsilylpropyne) (PTMSP), poly(4‐methyl‐2‐pentyne) (PMP), and polymers with intrinsic microporosity (PIM‐1)…”
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Scalable Fabrication of Polymer Membranes with Vertically Aligned 1 nm Pores by Magnetic Field Directed Self-Assembly by Feng, Xunda, Tousley, Marissa E, Cowan, Matthew G, Wiesenauer, Brian R, Nejati, Siamak, Choo, Youngwoo, Noble, Richard D, Elimelech, Menachem, Gin, Douglas L, Osuji, Chinedum O

“…There is long-standing interest in developing membranes possessing uniform pores with dimensions in the range of 1 nm and physical continuity in the…”
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Antecedent Carbapenem Exposure as a Risk Factor for Non-Carbapenemase-Producing Carbapenem-Resistant Enterobacteriaceae and Carbapenemase-Producing Enterobacteriaceae by Marimuthu, Kalisvar, Ng, Oon Tek, Cherng, Benjamin Pei Zhi, Fong, Raymond Kok Choon, Pada, Surinder Kaur, De, Partha Pratim, Ooi, Say Tat, Smitasin, Nares, Thoon, Koh Cheng, Krishnan, Prabha Unny, Ang, Michelle Lay Teng, Chan, Douglas Su Gin, Kwa, Andrea Lay Hoon, Deepak, Rama Narayana, Chan, Yu Kit, Chan, Yvonne Fu Zi, Huan, Xiaowei, Zaw Linn, Kyaw, Tee, Nancy Wen Sim, Tan, Thean Yen, Koh, Tse Hsien, Lin, Raymond Tzer Pin, Hsu, Li Yang, Sengupta, Sharmila, Paterson, David L, Perencevich, Eli, Harbarth, Stephan, Teo, Jeanette, Venkatachalam, Indumathi

“…Carbapenem-resistant (CRE) can be mechanistically classified into carbapenemase-producing (CPE) and non-carbapenemase-producing carbapenem nonsusceptible…”
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Phosphonium-based poly(Ionic liquid) membranes: The effect of cation alkyl chain length on light gas separation properties and Ionic conductivity by Cowan, Matthew G., Masuda, Miyuki, McDanel, William M., Kohno, Yuki, Gin, Douglas L., Noble, Richard D.

“…Phosphonium poly(ionic liquid)s (PILs) have been studied as alternatives to more common ammonium and imidazolium PILs for potential transport and separation…”
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Determination and optimization of factors affecting CO2/CH4 separation performance in poly(ionic liquid)-ionic liquid-zeolite mixed-matrix membranes by Singh, Zoban V., Cowan, Matthew G., McDanel, William M., Luo, Yiwei, Zhou, Rongfei, Gin, Douglas L., Noble, Richard D.

“…Zeolite particles, cross-linked poly(room-temperature ionic liquid)s (poly(RTIL)s), and room-temperature ionic liquids (RTILs) are combined to form…”
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Ideal CO2/Light Gas Separation Performance of Poly(vinylimidazolium) Membranes and Poly(vinylimidazolium)-Ionic Liquid Composite Films by Carlisle, Trevor K, Wiesenauer, Erin F, Nicodemus, Garret D, Gin, Douglas L, Noble, Richard D

“…Six vinyl-based, imidazolium room-temperature ionic liquid (RTIL) monomers were synthesized and photopolymerized to form dense poly(RTIL) membranes. The effect…”
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Effect of Anion on Gas Separation Performance of Polymer−Room-Temperature Ionic Liquid Composite Membranes by Bara, Jason E, Gin, Douglas L, Noble, Richard D

“…Composite gas separation membranes were fabricated by photopolymerization of a room-temperature ionic liquid (RTIL) monomer in the presence of 20 mol % of…”
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Synthesis and Performance of Polymerizable Room-Temperature Ionic Liquids as Gas Separation Membranes by Bara, Jason E, Lessmann, Sonja, Gabriel, Christopher J, Hatakeyama, Evan S, Noble, Richard D, Gin, Douglas L

“…Room-temperature ionic liquids (RTILs) with polymerizable groups can be readily converted into solid, dense poly(RTILs) for use as gas separation membranes. A…”
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High catalytic efficiency of palladium nanoparticles immobilized in a polymer membrane containing poly(ionic liquid) in Suzuki–Miyaura cross-coupling reaction by Gu, Yingying, Favier, Isabelle, Pradel, Christian, Gin, Douglas L., Lahitte, Jean-François, Noble, Richard D., Gómez, Montserrat, Remigy, Jean-Christophe

“…The elaboration of a polymeric catalytic membrane containing palladium nanoparticles is presented. The membrane was prepared using a photo-grafting process…”
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