Articles citing this paper
Why are Ionic Liquids Attractive for CO2 Absorption? An Overview
Junhua Huang A B and Thomas Rüther A
+ Author Affiliations
- Author Affiliations
A Energy Technology, CSIRO, BOX 312, Clayton South, VIC 3169, Australia.
B Corresponding author. Email: jewel.huang@csiro.au
Junhua Huang finished her Ph.D. study in 2002 on plastic crystals (interesting solid phases found in some ionic liquids) under the supervision of Professor Douglas MacFarlane at Monash University. She then studied biomimetic catalysis as a postdoctoral fellow in the group of Dr. Gerhard Swiegers at CSIRO Molecular and Health Technologies. In 2004, she joined CSIRO Energy Technology to research ionic liquids in energy storage devices. She is currently a project manager of developing ionic liquids for Post-Combustion Capture. Her research interests are new materials development in energy area and related physical chemistry, electrochemistry, and organic chemistry. |
Thomas Rüther completed his Ph.D. under the supervision of Ulrich Kölle at the RWTH Aachen, Germany. After postdoctoral studies with Piere H. Dixneuf sponsored by a European Community grant at the University of Rennes, France, he joined the group of Kingsley J. Cavell at the University of Tasmania, Australia in 1998. From 2001 to 2003 he worked as a research fellow with Alan M. Bond at Monash University. After a period in the private industry he took up a position as research scientist with CSIRO Energy Technology in 2006. His areas of interest are synthetic organometallic and organic chemistry, catalysis, and electrochemistry. |
Australian Journal of Chemistry 62(4) 298-308 https://doi.org/10.1071/CH08559
Submitted: 19 December 2008 Accepted: 2 March 2009 Published: 24 April 2009
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Oh Seungmin,
Morales-Collazo Oscar,
Keller Austin N., Brennecke Joan F.
The Journal of Physical Chemistry B. 2020 124(40). p.8877
Hierarchical porous polyacrylonitrile-based activated carbon fibers for CO2 capture
Shen Wenzhong,
Zhang Shouchun,
He Yue,
Li Junfen, Fan Weibin
Journal of Materials Chemistry. 2011 21(36). p.14036
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Zhang Jinzhi,
Jia Cai,
Dong Haifeng,
Wang Jinquan,
Zhang Xiangping, Zhang Suojiang
Industrial & Engineering Chemistry Research. 2013 52(17). p.5835
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Li Leqi,
Xie Hanguang,
He Long,
Deng Bin,
Zong Yuan,
Yang Xiaogang,
Zhao Ling, Dai Gance
Chemical Engineering Science. 2022 255 p.117666
Low-viscous diamino protic ionic liquids with fluorine-substituted phenolic anions for improving CO2 reversible capture
Zhao Tianxiang,
Zhang Xiaomin,
Tu Zhuoheng,
Wu Youting, Hu Xingbang
Journal of Molecular Liquids. 2018 268 p.617
Conversion of Mono‐ and Disaccharides to Ethyl Levulinate and Ethyl Pyranoside with Sulfonic Acid‐Functionalized Ionic Liquids
Saravanamurugan Shunmugavel,
Nguyen Van Buu Olivier, Riisager Anders
ChemSusChem. 2011 4(6). p.723
Ionic liquids on oxide surfaces
Cole Jordan, Syres Karen L
Journal of Physics: Condensed Matter. 2022 34(21). p.213002
Efficient and Energy-Saving CO2 Capture through the Entropic Effect Induced by the Intermolecular Hydrogen Bonding in Anion-Functionalized Ionic Liquids
Luo Xiao Y.,
Ding Fang,
Lin Wen J.,
Qi Yu Q.,
Li Hao R., Wang Cong M.
The Journal of Physical Chemistry Letters. 2014 5(2). p.381
Molecular Dynamics Simulations of Acidic Gases at Interface of Quaternary Ammonium Ionic Liquids
Morganti Juliana D.,
Hoher Karina,
Ribeiro Mauro C. C.,
Ando Romulo A., Siqueira Leonardo J. A.
The Journal of Physical Chemistry C. 2014 118(38). p.22012
Effect of Fluorination and Size of the Alkyl Side-Chain on the Solubility of Carbon Dioxide in 1-Alkyl-3-methylimidazolium Bis(trifluoromethylsulfonyl)amide Ionic Liquids
Almantariotis D.,
Gefflaut T.,
Pádua A. A. H.,
Coxam J.-Y., Costa Gomes M. F.
The Journal of Physical Chemistry B. 2010 114(10). p.3608
The capture and simultaneous fixation of CO2 in the simulation of fuel gas by bifunctionalized ionic liquids
Luo Xiaoyan,
Chen Kaihong,
Li Haoran, Wang Congmin
International Journal of Hydrogen Energy. 2016 41(21). p.9175
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Shen Hongyan, Liu Youzhi
SSRN Electronic Journal . 2021
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Current Opinion in Green and Sustainable Chemistry. 2017 3 p.33
A Computational Study on Choline Benzoate and Choline Salicylate Ionic Liquids in the Pure State and After CO2Adsorption
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The Journal of Physical Chemistry B. 2012 116(30). p.9171
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Shelepova Ekaterina A., Medvedev Nikolai N.
Journal of Molecular Liquids. 2022 349 p.118127
High-pressure investigation of ionic functionalized graphitic carbon nitride nanostructures for CO2 capture
Ghosh Sreetama, Ramaprabhu Sundara
Journal of CO2 Utilization. 2017 21 p.89
Enhanced CO2 capture by reducing cation–anion interactions in hydroxyl-pyridine anion-based ionic liquids
Luo Xiao-Yan,
Chen Xiao-Yan,
Qiu Rong-Xing,
Pei Bao-You,
Wei Yi,
Hu Min,
Lin Jin-Qing,
Zhang Jing-Yang, Luo Geng-Geng
Dalton Transactions. 2019 48(7). p.2300
Novel ionic liquid analogs formed by triethylbutylammonium carboxylate-water mixtures for CO2 absorption
Wang G.N.,
Dai Y.,
Hu X.B.,
Xiao F.,
Wu Y.T.,
Zhang Z.B., Zhou Z.
Journal of Molecular Liquids. 2012 168 p.17
Nanostructured polyaniline decorated graphene sheets for reversible CO2 capture
Mishra Ashish Kumar, Ramaprabhu Sundara
Journal of Materials Chemistry. 2012 22(9). p.3708
Advances in Natural Gas: Formation, Processing, and Applications. Volume 2: Natural Gas Sweetening (2024)
Synthesis of novel amino-functionalized ionic liquids and their application in carbon dioxide capture
Peng Hui,
Zhou Yaoliang,
Liu Jun,
Zhang Haibo,
Xia Chunlan, Zhou Xiaohai
RSC Advances. 2013 3(19). p.6859
Ditetraalkylammonium Amino Acid Ionic Liquids as CO2 Absorbents of High Capacity
Ma Jing-wen,
Zhou Zheng,
Zhang Feng,
Fang Cheng-gang,
Wu You-ting,
Zhang Zhi-bing, Li Ai-min
Environmental Science & Technology. 2011 45(24). p.10627
Solubility of Carbon Dioxide in Strongly Basic Ionic Liquid
Sung Jun-Kyung,
Kim Sung-Hyun,
Cheong Min-Serk, Baek Il-Hyun
Bulletin of the Korean Chemical Society. 2010 31(10). p.2797
Transport, Electrochemical and Thermophysical Properties of Two N‐Donor‐Functionalised Ionic Liquids
Rüther Thomas,
Harris Kenneth R.,
Horne Michael D.,
Kanakubo Mitsuhiro,
Rodopoulos Theo,
Veder Jean‐Pierre, Woolf Lawrence A.
Chemistry – A European Journal. 2013 19(52). p.17733
Catalytic Electrochemical Reduction of CO2 in Ionic Liquid EMIMBF3Cl
Snuffin Laura L.,
Whaley Louis W., Yu Lei
Journal of The Electrochemical Society. 2011 158(9). p.F155
Outcomes from pilot plant trials of precipitating potassium carbonate solvent absorption for CO 2 capture from a brown coal fired power station in Australia
Smith Kathryn H.,
Harkin Trent,
Mumford Kathryn,
Kentish Sandra,
Qader Abdul,
Anderson Clare,
Hooper Barry, Stevens Geoffrey W.
Fuel Processing Technology. 2017 155 p.252
Highly efficient and reversible SO2 capture by halogenated carboxylate ionic liquids
Cui Guokai,
Huang Yanjie,
Zhang Ruina,
Zhang Fengtao, Wang Jianji
RSC Advances. 2015 5(75). p.60975
Tuning the Basicity of Cyano‐Containing Ionic Liquids to Improve SO2 Capture through Cyano–Sulfur Interactions
Cui Guokai,
Zhang Fengtao,
Zhou Xiuyuan,
Li Haoran,
Wang Jianji, Wang Congmin
Chemistry – A European Journal. 2015 21(14). p.5632
New hydrophobic ionic liquids with perfluoroalkyl phosphate and cyanofluoroborate anions
Ignat’ev N.V.,
Finze M.,
Sprenger J.A.P.,
Kerpen C.,
Bernhardt E., Willner H.
Journal of Fluorine Chemistry. 2015 177 p.46
Carbon Dioxide Absorption Property of Physical Sorbent in the Pre-Combustion Condition
Baek Geun-Ho,
You Seung-Han, Cha Wang-Seog
Journal of the Korea Academia-Industrial cooperation Society. 2010 11(11). p.4643
Active chemisorption sites in functionalized ionic liquids for carbon capture
Cui Guokai,
Wang Jianji, Zhang Suojiang
Chemical Society Reviews. 2016 45(15). p.4307
Advances in CO2Capture, Sequestration, and Conversion (2015)
Modeling of CO2 Solubility in Selected Imidazolium-Based Ionic Liquids
Ali Emad,
Hadj-Kali Mohamed K., Alnashef Inas
Chemical Engineering Communications. 2017 204(2). p.205
Imidazole tailored deep eutectic solvents for CO2 capture enhanced by hydrogen bonds
Cao Lingdi,
Huang Junhua,
Zhang Xiangping,
Zhang Suojiang,
Gao Jubao, Zeng Shaojuan
Physical Chemistry Chemical Physics. 2015 17(41). p.27306
Diamino protic ionic liquids for CO2 capture
Vijayraghavan R.,
Pas Steven J.,
Izgorodina Ekaterina I., MacFarlane Douglas R.
Physical Chemistry Chemical Physics. 2013 15(46). p.19994
Molecular Design of High Capacity, Low Viscosity, Chemically Tunable Ionic Liquids for CO2 Capture
Gurkan B.,
Goodrich B. F.,
Mindrup E. M.,
Ficke L. E.,
Massel M.,
Seo S.,
Senftle T. P.,
Wu H.,
Glaser M. F.,
Shah J. K.,
Maginn E. J.,
Brennecke J. F., Schneider W. F.
The Journal of Physical Chemistry Letters. 2010 1(24). p.3494
The Synthesis and the Chemical and Physical Properties of Non‐Aqueous Silylamine Solvents for Carbon Dioxide Capture
Rohan Amy L.,
Switzer Jackson R.,
Flack Kyle M.,
Hart Ryan J.,
Sivaswamy Swetha,
Biddinger Elizabeth J.,
Talreja Manish,
Verma Manjusha,
Faltermeier Sean,
Nielsen Paul T.,
Pollet Pamela,
Schuette George F.,
Eckert Charles A., Liotta Charles L.
ChemSusChem. 2012 5(11). p.2181
Carbon Capture and Storage (2019)
Thermal stability and vapor-liquid equilibrium of aqueous solutions of choline and tetramethylammonium taurate
Hastings Jon,
Lassitter Thomas,
Clearman John C.,
Soltani Mohammad,
Coym Jason W.,
Matthew Reichert W.,
West Kevin N.,
Davis James H., Grant Glover T.
Journal of Molecular Liquids. 2024 397 p.124022
Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO2
Saravanamurugan Shunmugavel,
Kunov‐Kruse Andreas J.,
Fehrmann Rasmus, Riisager Anders
ChemSusChem. 2014 7(3). p.897
Ionic Liquids and Their Application in Green Chemistry (2023)
CO2 Capture technologies: Current status and new directions using supported ionic liquid phase (SILP) absorbers
Kolding Helene,
Fehrmann Rasmus, Riisager Anders
Science China Chemistry. 2012 55(8). p.1648
Amino acid based poly(ionic liquid) materials for CO2 capture: Effect of anion
Raja Shahrom Maisara Shahrom,
Wilfred Cecilia Devi,
MacFarlane Douglas R.,
Vijayraghavan R., Chong Fai Kait
Journal of Molecular Liquids. 2019 276 p.644
CO2 equilibrium solubility in and physical properties for monoethanolamine glycinate at low pressures
Akbari Mahsa, Valeh-e-Sheyda Peyvand
Process Safety and Environmental Protection. 2019 132 p.116
60 Years of the Loeb-Sourirajan Membrane (2022)
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Hussain Solangi Nadeem,
Hussin Farihahusnah,
Anjum Amna,
Sabzoi Nizamuddin,
Ali Mazari Shaukat,
Mubarak Nabisab Mujawar,
Kheireddine Aroua Mohamed,
Siddiqui M.T.H., Saeed Qureshi Sundus
Journal of Molecular Liquids. 2023 374 p.121266
Efficient Absorption of CO2 by Protic‐Ionic‐Liquid Based Deep Eutectic Solvents
Wen Shuyue,
Zhang Xiaomin, Wu Youting
Chemistry – An Asian Journal. 2024 19(11).
Screening of deep eutectic solvents (DESs) as green CO2 sorbents: from solubility to viscosity
Sarmad Shokat,
Xie Yujiao,
Mikkola Jyri-Pekka, Ji Xiaoyan
New Journal of Chemistry. 2017 41(1). p.290
Comprehensive Inorganic Chemistry II (2013)
Microscopic Structure, Interaction, and Properties of a Guanidinium-Based Ionic Liquid and Its Mixture with CO2
Zhang Xiaochun,
Liu Xiaomin,
Yao Xiaoqian, Zhang Suojiang
Industrial & Engineering Chemistry Research. 2011 50(13). p.8323
Potential for Using Simple 1,2,4-Triazole Salt Solutions as Highly Efficient CO2 Absorbents with Low Reaction Enthalpies
Ren Jie,
Wu Linbo, Li Bo-Geng
Industrial & Engineering Chemistry Research. 2013 52(25). p.8565
Optimized ionic liquids for toluene absorption
Bedia Jorge,
Ruiz Elia,
de Riva Juan,
Ferro Victor R.,
Palomar Jose, Rodriguez Juan Jose
AIChE Journal. 2013 59(5). p.1648
Fundamental investigation on the development of composite membrane with a thin ion gel layer for CO2 separation
Zhang Jinhui,
Kamio Eiji,
Matsuoka Atsushi,
Nakagawa Keizo,
Yoshioka Tomohisa, Matsuyama Hideto
Journal of Membrane Science. 2022 663 p.121032
Perspective: Chemical reactions in ionic liquids monitored through the gas
(vacuum)/liquid interface
Maier F.,
Niedermaier I., Steinrück H.-P.
The Journal of Chemical Physics. 2017 146(17).
Carbon dioxide absorption studies using amine-functionalized ionic liquids
Sistla Yamini Sudha, Khanna Ashok
Journal of Industrial and Engineering Chemistry. 2014 20(4). p.2497
Emerging green strategies for biogas upgrading through CO2 capture: From unconventional organic solvents to clathrate and semi-clathrate hydrates
Di Profio Pietro,
Ciulla Michele,
Di Giacomo Stefano,
Barbacane Nadia,
Wolicki Rafal Damian,
Fontana Antonella,
Moffa Samanta,
Pilato Serena, Siani Gabriella
Journal of Molecular Liquids. 2023 391 p.123196
Tandem Mass Spectrometry Measurement of the Collision Products of Carbamate Anions Derived from CO2 Capture Sorbents: Paving the Way for Accurate Quantitation
Jackson Phil,
Fisher Keith J., Attalla Moetaz Ibrahim
Journal of the American Society for Mass Spectrometry. 2011 22(8). p.1420
Reactive capture and electrochemical conversion of CO2 with ionic liquids and deep eutectic solvents
Dongare Saudagar,
Zeeshan Muhammad,
Aydogdu Ahmet Safa,
Dikki Ruth,
Kurtoğlu-Öztulum Samira F.,
Coskun Oguz Kagan,
Muñoz Miguel,
Banerjee Avishek,
Gautam Manu,
Ross R. Dominic,
Stanley Jared S.,
Brower Rowan S.,
Muchharla Baleeswaraiah,
Sacci Robert L.,
Velázquez Jesús M.,
Kumar Bijandra,
Yang Jenny Y.,
Hahn Christopher,
Keskin Seda,
Morales-Guio Carlos G.,
Uzun Alper,
Spurgeon Joshua M., Gurkan Burcu
Chemical Society Reviews. 2024
Deep eutectic solvents formed by novel metal-based amino acid salt and dihydric alcohol for highly efficient capture of CO2
Wen Shuyue,
Wang Tao,
Zhang Xiaomin,
Hu Xingbang, Wu Youting
Journal of Environmental Chemical Engineering. 2024 12(3). p.112533
Concentrated aqueous solutions of protic ionic liquids as effective CO2 absorbents with high absorption capacities
Zheng Wen-Tao,
Zhang Feng,
Wu You-Ting, Hu Xing-Bang
Journal of Molecular Liquids. 2017 243 p.169
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Computational insights into the molecular interaction and ion-pair structures of a novel zinc-functionalized ionic liquid, [Emim][Zn(TFSI)3]
Arellano Ian Harvey,
Huang Junhua, Pendleton Phillip
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2016 153 p.6
Recent Advances in Carbon Dioxide Capture, Fixation, and Activation by using N‐Heterocyclic Carbenes
Yang Longhua, Wang Hongming
ChemSusChem. 2014 7(4). p.962
Promoting the circular economy: Valorization of a residue from industrial char to activated carbon with potential environmental applications as adsorbents
Pereira Ledicia,
Castillo Ventura,
Calero Mónica,
González-Egido Sergio,
Martín-Lara M. Ángeles, Solís Rafael R.
Journal of Environmental Management. 2024 356 p.120753
CO2 capture by task specific ionic liquids (TSILs) and polymerized ionic liquids (PILs and AAPILs)
Raja Shahrom Maisara Shahrom,
Wilfred Cecilia Devi, Taha AboBakr Khidir Ziyada
Journal of Molecular Liquids. 2016 219 p.306
Coarse-grained molecular dynamic simulations of selected thermophysical properties for 1-Butyl-3-methylimidazolium hexafluorophosphate
Reyes Guillermo,
Segura Hugo, Mejía Andrés
Journal of Molecular Liquids. 2013 186 p.106
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Moganty Surya S.,
Chinthamanipeta Pavan S.,
Vendra Venkat K.,
Krishnan Sitaraman, Baltus Ruth E.
Chemical Engineering Journal. 2014 250 p.377
Preparation and Characterization of Facilitated Transport Membranes Composed of Chitosan-Styrene and Chitosan-Acrylonitrile Copolymers Modified by Methylimidazolium Based Ionic Liquids for CO2 Separation from CH4 and N2
Otvagina Ksenia,
Mochalova Alla,
Sazanova Tatyana,
Petukhov Anton,
Moskvichev Alexandr,
Vorotyntsev Andrey,
Afonso Carlos, Vorotyntsev Ilya
Membranes. 2016 6(2). p.31
Intensification of gas-liquid two-phase flow and mass transfer in microchannels by sudden expansions
Zhang Shizhe,
Zhu Chunying,
Feng Huisheng,
Fu Taotao, Ma Youguang
Chemical Engineering Science. 2021 229 p.116040
Aqueous interphase formed by CO2 brings electrolytes back to salt-in-water regime
Yue Jinming,
Zhang Jinkai,
Tong Yuxin,
Chen Ming,
Liu Lilu,
Jiang Liwei,
Lv Tianshi,
Hu Yong-sheng,
Li Hong,
Huang Xuejie,
Gu Lin,
Feng Guang,
Xu Kang,
Suo Liumin, Chen Liquan
Nature Chemistry. 2021 13(11). p.1061
Molecular basket sorbents polyethylenimine–SBA-15 for CO2 capture from flue gas: Characterization and sorption properties
Wang Xiaoxing,
Ma Xiaoliang,
Song Chunshan,
Locke Darren R.,
Siefert Soenke,
Winans Randall E.,
Möllmer Jens,
Lange Marcus,
Möller Andreas, Gläser Roger
Microporous and Mesoporous Materials. 2013 169 p.103
Effect of Temperature and Water Concentration on CO2 Absorption by Tetrabutylphosphonium Formate Ionic Liquid
Yasaka Yoshiro, Kimura Yoshifumi
Journal of Chemical & Engineering Data. 2016 61(2). p.837
Solubility of CO2 and N2O in an Imidazolium-Based Lipidic Ionic Liquid
Langham Jacob V.,
O’Brien Richard A.,
Davis James H., West Kevin N.
The Journal of Physical Chemistry B. 2016 120(40). p.10524
Effect of immobilization methods and the pore structure on CO2 separation performance in silica-supported ionic liquids
Zhu Jiamei,
He Baotan,
Huang Junhua,
Li Cancan, Ren Ting
Microporous and Mesoporous Materials. 2018 260 p.190
Application of decision tree learning in modelling CO 2 equilibrium absorption in ionic liquids
Ghiasi Mohammad M., Mohammadi Amir H.
Journal of Molecular Liquids. 2017 242 p.594
Ionic Liquids in Chemical Engineering
Werner Sebastian,
Haumann Marco, Wasserscheid Peter
Annual Review of Chemical and Biomolecular Engineering. 2010 1(1). p.203
Adsorption and diffusivity of CO2 in phosphonium ionic liquid modified silica
Zhu Jiamei,
Xin Feng,
Huang Junhua,
Dong Xiaochen, Liu Hanming
Chemical Engineering Journal. 2014 246 p.79
Regular Solution Theory for Low Pressure Carbon Dioxide Solubility in Room Temperature Ionic Liquids: Ionic Liquid Solubility Parameter from Activation Energy of Viscosity
Moganty Surya S., Baltus Ruth E.
Industrial & Engineering Chemistry Research. 2010 49(12). p.5846
From kinetics to equilibrium control in CO2 capture columns using Encapsulated Ionic Liquids (ENILs)
Santiago R.,
Lemus J.,
Moreno D.,
Moya C.,
Larriba M.,
Alonso-Morales N.,
Gilarranz M.A.,
Rodríguez J.J., Palomar J.
Chemical Engineering Journal. 2018 348 p.661
Supported Ionic Liquids (2014)
Significant Improvements in CO2 Capture by Pyridine‐Containing Anion‐Functionalized Ionic Liquids through Multiple‐Site Cooperative Interactions
Luo Xiaoyan,
Guo Yan,
Ding Fang,
Zhao Hongqing,
Cui Guokai,
Li Haoran, Wang Congmin
Angewandte Chemie. 2014 126(27). p.7173
Screening of ionic liquids for gas separation using COSMO-RS and comparison between performances of ionic liquids and aqueous alkanolamine solutions
Hadj-Kali Mohamed K.,
Althuluth Mamoun,
Mokraoui Salim,
Wazeer Irfan,
Ali Emad, Richon Dominique
Chemical Engineering Communications. 2020 207(9). p.1264
Enhanced CO2 uptake by intramolecular proton transfer reactions in amino-functionalized pyridine-based ILs
Pan Mingguang,
Vijayaraghavan R.,
Zhou Fengling,
Kar Mega,
Li Haoran,
Wang Congmin, MacFarlane Douglas R.
Chemical Communications. 2017 53(44). p.5950
Review of recent advances in carbon dioxide separation and capture
Kenarsari Saeed Danaei,
Yang Dali,
Jiang Guodong,
Zhang Suojiang,
Wang Jianji,
Russell Armistead G.,
Wei Qiang, Fan Maohong
RSC Advances. 2013 3(45). p.22739
Carbon dioxide solubility in amine-based deep eutectic solvents: Experimental and theoretical investigation
Pishro Khatereh Ali,
Murshid Ghulam,
Mjalli Farouq Sabri, Naser Jamil
Journal of Molecular Liquids. 2021 325 p.115133
Thermodynamic modeling of CO2 absorption in 1-butyl-3-methylimidazolium-based ionic liquids
Bazargani Zohreh, Sabzi Fatemeh
Journal of Molecular Liquids. 2016 223 p.235
Ionic Liquid Properties (2016)
Carbon dioxide capture by a dual amino ionic liquid with amino-functionalized imidazolium cation and taurine anion
Xue Zhimin,
Zhang Zhaofu,
Han Jin,
Chen Yu, Mu Tiancheng
International Journal of Greenhouse Gas Control. 2011 5(4). p.628
Understanding the Physical Absorption of CO2 in Ionic Liquids Using the COSMO-RS Method
Palomar Jose,
Gonzalez-Miquel Maria,
Polo Alicia, Rodriguez Francisco
Industrial & Engineering Chemistry Research. 2011 50(6). p.3452
Recent Advances in Post-Combustion CO2Capture Chemistry (2012)
Solubility and Diffusivity of CO2 in [hxmim][NTf2], [omim][NTf2], and [dcmim][NTf2] at T = (298.15, 308.15, and 323.15) K and Pressures up to 20 bar
Gonzalez-Miquel Maria,
Bedia Jorge,
Palomar Jose, Rodriguez Francisco
Journal of Chemical & Engineering Data. 2014 59(2). p.212
Porous Solids Impregnated with Task-Specific Ionic Liquids as Composite Sorbents
Ruckart K. Neil,
O’Brien Richard A.,
Woodard Seth M.,
West Kevin N., Glover T. Grant
The Journal of Physical Chemistry C. 2015 119(35). p.20681
Experimental study on solubility of CO2 and CH4 in the ionic liquid 1-benzyl-3-methylimidazolium nitrate
Mirzaei Mojtaba,
Sharifi Ali, Abaee M. Saeed
The Journal of Supercritical Fluids. 2023 199 p.105963
Low viscosity amino acid ionic liquids with asymmetric tetraalkylammonium cations for fast absorption of CO2
Yu Hong,
Wu You-Ting,
Jiang Ying-Ying,
Zhou Zheng, Zhang Zhi-Bing
New Journal of Chemistry. 2009 33(12). p.2385
Regeneration performance of amino acid ionic liquid (AAIL) activated MDEA solutions for CO2 capture
Feng Zhang,
Yuan Gao,
Xian-Kun Wu,
Jing-Wen Ma,
You-Ting Wu, Zhi-Bing Zhang
Chemical Engineering Journal. 2013 223 p.371
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Zhu Hao Yue,
Li Yan Yan,
Ma Jing,
Liu Shuai, Zhu Jian Hua
ACS Applied Materials & Interfaces. 2014 6(15). p.12947
Effects of anions on absorption capacity of carbon dioxide in acid functionalized ionic liquids
Sharma Pankaj,
Park Sang Do,
Baek Il Hyun,
Park Ki Tae,
Yoon Yeo II, Jeong Soon Kwan
Fuel Processing Technology. 2012 100 p.55
Solubility of carbon dioxide in encapsulated ionic liquids
Lemus Jesús,
Da Silva F. Francisco A.,
Palomar Jose,
Carvalho Pedro J., Coutinho Joao A.P.
Separation and Purification Technology. 2018 196 p.41
Anion Effects on Kinetics and Thermodynamics of CO2 Absorption in Ionic Liquids
Gonzalez-Miquel Maria,
Bedia Jorge,
Abrusci Concepcion,
Palomar Jose, Rodriguez Francisco
The Journal of Physical Chemistry B. 2013 117(12). p.3398
Chemisorption of Carbon Dioxide in Carboxylate-Functionalized Ionic Liquids: A Mechanistic Study
Yasaka Yoshiro,
Ueno Masakatsu, Kimura Yoshifumi
Chemistry Letters. 2014 43(5). p.626
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He Wanyuan,
Chen Hao,
Zhao Wenqi,
Zhu Chunying,
Fu Taotao, Ma Youguang
Chemical Engineering and Processing - Process Intensification. 2024 200 p.109792
Enhanced gravimetric CO2 capacity and viscosity for ionic liquids with cyanopyrrolide anion
Brown Paul,
Gurkan Burcu E., Hatton T. Alan
AIChE Journal. 2015 61(7). p.2280
High pressure solubility of CO2 in non-fluorinated phosphonium-based ionic liquids
Ramdin Mahinder,
Olasagasti Teresa Zuzuarregui,
Vlugt Thijs J.H., de Loos Theo W.
The Journal of Supercritical Fluids. 2013 82 p.41
Solubility of CO2 in ionic liquids containing cyanide anions: [c2mim][SCN], [c2mim][N(CN)2], [c2mim][C(CN)3]
Kim Ji Eun,
Kim Hak Joo, Lim Jong Sung
Fluid Phase Equilibria. 2014 367 p.151
Effect of water activity on carbon dioxide transport in cholinium-based ionic liquids with carbonic anhydrase
Martins C.F.,
Neves L.A.,
Estevão M.,
Rosatella A.,
Alves V.D.,
Afonso C.A.M.,
Crespo J.G., Coelhoso I.M.
Separation and Purification Technology. 2016 168 p.74
Phase equilibrium of (CO2+1-aminopropyl-3-methylimidazolium bromide+water) electrolyte system and effects of aqueous medium on CO2 solubility: Experiment and modeling
Chen Ying,
Guo Kaihua,
Bi Yin, Zhou Lan
The Journal of Chemical Thermodynamics. 2017 107 p.65
Phosphonium‐Based Ionic Liquids Used as Reagents or Catalysts
Macarie Lavinia,
Simulescu Vasile, Ilia Gheorghe
ChemistrySelect. 2019 4(32). p.9285
Chitosan Containing Supported Ionic Liquid Phase Materials for CO2 Absorption
Pohako-Esko Kaija,
Bahlmann Matthias,
Schulz Peter S., Wasserscheid Peter
Industrial & Engineering Chemistry Research. 2016 55(25). p.7052
Composition dependent structural organization in trihexyl(tetradecyl)phosphonium chloride ionic liquid-methanol mixtures
Gupta Aditya,
Sharma Shobha, Kashyap Hemant K.
The Journal of Chemical Physics. 2015 142(13).
Ionic Liquid-Based Technologies for Environmental Sustainability (2022)
Energy storage based on SrCO3 and Sorbents—A probabilistic analysis towards realizing solar thermochemical power plants
Meroueh Laureen,
Yenduru Karthik,
Dasgupta Arindam,
Jiang Duo, AuYeung Nick
Renewable Energy. 2019 133 p.770
Carbon capture and storage update
Boot-Handford Matthew E.,
Abanades Juan C.,
Anthony Edward J.,
Blunt Martin J.,
Brandani Stefano,
Mac Dowell Niall,
Fernández José R.,
Ferrari Maria-Chiara,
Gross Robert,
Hallett Jason P.,
Haszeldine R. Stuart,
Heptonstall Philip,
Lyngfelt Anders,
Makuch Zen,
Mangano Enzo,
Porter Richard T. J.,
Pourkashanian Mohamed,
Rochelle Gary T.,
Shah Nilay,
Yao Joseph G., Fennell Paul S.
Energy Environ. Sci.. 2014 7(1). p.130
Interfacial mass transfer intensification with highly viscous mixture
Xie Hanguang,
Zong Yuan,
Shen Lian, Dai Gance
Chemical Engineering Science. 2021 236 p.116531
CO2/N2 separations using nanoporous alumina-supported ionic liquid membranes: Effect of the support on separation performance
Close Joshua J.,
Farmer Karen,
Moganty Surya S., Baltus Ruth E.
Journal of Membrane Science. 2012 390-391 p.201
CO2/N2 Selectivity Prediction in Supported Ionic Liquid Membranes (SILMs) by COSMO-RS
Gonzalez-Miquel Maria,
Palomar Jose,
Omar Salama, Rodriguez Francisco
Industrial & Engineering Chemistry Research. 2011 50(9). p.5739
Determination of cost-effective operating condition for CO2 capturing using 1-butyl-3-methylimidazolium tetrafluoroborate ionic liquid
Ali Emad,
Alnashef Inas,
Ajbar Abdelhamid,
Mulyono Sarwono,
Hizaddin Hanee Farzana, Hadj-Kali Mohamed Kamel
Korean Journal of Chemical Engineering. 2013 30(11). p.2068
Deep eutectic solvents as attractive media for CO2 capture
Trivedi Tushar J.,
Lee Ji Hoon,
Lee Hyeon Jeong,
Jeong You Kyeong, Choi Jang Wook
Green Chemistry. 2016 18(9). p.2834
Modes of Interaction in Binary Blends of Hydrophobic Polyethers and Imidazolium Bis(trifluoromethylsulfonyl)imide Ionic Liquids
Bentley Caitlin L.,
Chwatko Malgorzata,
Wheatle Bill K.,
Burkey Aaron A.,
Helenic Alysha,
Morales-Collazo Oscar,
Ganesan Venkat,
Lynd Nathaniel A., Brennecke Joan F.
Macromolecules. 2020 53(15). p.6519
Tuning the Basicity of Ionic Liquids for Equimolar CO2 Capture
Wang Congmin,
Luo Xiaoyan,
Luo Huimin,
Jiang De‐en,
Li Haoran, Dai Sheng
Angewandte Chemie. 2011 123(21). p.5020
A systematic review of machine learning approaches in carbon capture applications
Hussin Farihahusnah,
Md Rahim Siti Aqilah Nadhirah,
Hatta Nur Syahirah Mohamed,
Aroua Mohamed Kheireddine, Mazari Shaukat Ali
Journal of CO2 Utilization. 2023 71 p.102474
Diffusivity of Carbon Dioxide in Room-Temperature Ionic Liquids
Moganty Surya S., Baltus Ruth E.
Industrial & Engineering Chemistry Research. 2010 49(19). p.9370
Fluorination effect in the volatility of imidazolium-based ionic liquids
Rodrigues A.S.M.C.,
Fernandes A.M.,
Dévemy J.,
Costa Gomes M., Santos L.M.N.B.F.
Journal of Molecular Liquids. 2019 282 p.385
Significant Improvements in CO2 Capture by Pyridine‐Containing Anion‐Functionalized Ionic Liquids through Multiple‐Site Cooperative Interactions
Luo Xiaoyan,
Guo Yan,
Ding Fang,
Zhao Hongqing,
Cui Guokai,
Li Haoran, Wang Congmin
Angewandte Chemie International Edition. 2014 53(27). p.7053
Solubility of CO2 in the Ionic Liquids [TBMN][MeSO4] and [TBMP][MeSO4]
Ramdin Mahinder,
Vlugt Thijs J. H., de Loos Theo W.
Journal of Chemical & Engineering Data. 2012 57(8). p.2275
Mass transfer characteristics of CO2 absorption into 1-butyl-3-methylimidazolium tetrafluoroborate aqueous solution in microchannel
Chu Chunyan,
Zhang Fanbin,
Zhu Chunying,
Fu Taotao, Ma Youguang
International Journal of Heat and Mass Transfer. 2019 128 p.1064
The multifaceted dissociation chemistry of anionic aggregates containing functionalised amines and CO2
Jackson Phil
Chemical Communications. 2013 49(87). p.10233
Enhanced CO2 capture kinetics by using macroporous carbonized natural fibers impregnated with an ionic liquid
Isaacs-Páez E.D.,
García-Pérez A.J.,
Nieto-Delgado C.,
Chazaro-Ruiz Luis F., Rangel-Mendez J.R.
Journal of Molecular Liquids. 2022 350 p.118602
Combined physical and chemical absorption of carbon dioxide in a mixture of ionic liquids
Pinto Alicia M.,
Rodríguez Héctor,
Arce Alberto, Soto Ana
The Journal of Chemical Thermodynamics. 2014 77 p.197
Anion Dependent Dynamics and Water Solubility Explained by Hydrogen Bonding Interactions in Mixtures of Water and Aprotic Heterocyclic Anion Ionic Liquids
Sheridan Quintin R.,
Schneider William F., Maginn Edward J.
The Journal of Physical Chemistry B. 2016 120(49). p.12679
Fabrication of an Electrochemical Sensor for NOx Based on Ionic Liquids and MoS2
Mao Xuyan,
Wu Maocheng,
Xu Xiangyu,
Jiang Liang,
Yan Jie,
Du Zhongyu,
Li Jianjun, Hou Shifeng
International Journal of Electrochemical Science. 2018 13(11). p.11038
Preparation and CO2 Sorption/Desorption of N-(3-Aminopropyl)Aminoethyl Tributylphosphonium Amino Acid Salt Ionic Liquids Supported into Porous Silica Particles
Ren Jie,
Wu Linbo, Li Bo-Geng
Industrial & Engineering Chemistry Research. 2012 51(23). p.7901
Proceedings of the 3rd Gas Processing Symposium (2012)
Adsorption of CO2 with tetraethylammonium glycine ionic liquid modified alumina in the Rotating Adsorption Bed
Ren Huiyun,
Shen Hongyan, Liu Youzhi
Journal of CO2 Utilization. 2022 58 p.101925
Molecular screening of ionic liquids for CO2 absorption and molecular dynamic simulation
Jia Xingang,
Hu Xiaoling,
Su Kehe,
Wang Wenzhen, Du Chunbao
Open Chemistry. 2022 20(1). p.379
COSMO-RS Studies: Structure–Property Relationships for CO2 Capture by Reversible Ionic Liquids
Gonzalez-Miquel Maria,
Talreja Manish,
Ethier Amy L.,
Flack Kyle,
Switzer Jackson R.,
Biddinger Elizabeth J.,
Pollet Pamela,
Palomar Jose,
Rodriguez Francisco,
Eckert Charles A., Liotta Charles L.
Industrial & Engineering Chemistry Research. 2012 51(49). p.16066
Reaction Mechanism and Kinetics Study of CO2 Absorption into [C2OHmim][Lys]
Li Sujing,
Zhao Chongjian,
Sun Cheng,
Shi Yun, Li Wei
Energy & Fuels. 2016 30(10). p.8535
Transport Properties and Solvation Structure of Mixtures of Carbon Dioxide and Room-Temperature Ionic Liquids
Demizu Masashi,
Harada Masafumi,
Saijo Kenji,
Terazima Masahide, Kimura Yoshifumi
Bulletin of the Chemical Society of Japan. 2011 84(1). p.70
Exploring the use of CO2-expanded ionic liquids as solvents in microextraction of 3,3′,4,4′-tetrachlorobiphenyl from aqueous solutions
Villarroel Eduardo,
Merlet Gastón,
Toledo-Neira Carla,
Sepúlveda Luisa,
Romero Julio,
Brouwer Thomas,
Schuur Boelo, Quijada-Maldonado Esteban
Journal of Ionic Liquids. 2024 4(1). p.100072
Selection of Ionic Liquids for Enhancing the Gas Solubility of Volatile Organic Compounds
Gonzalez-Miquel Maria,
Palomar Jose, Rodriguez Francisco
The Journal of Physical Chemistry B. 2013 117(1). p.296
Mass transfer enhancement of CO2 absorption into [Bmim][BF4] aqueous solution in microchannels by heart-shaped grooves
Chen Yiyu,
Zhu Chunying,
Fu Taotao, Ma Youguang
Chemical Engineering and Processing - Process Intensification. 2021 167 p.108536
Role of Molecular Modeling in the Development of CO2–Reactive Ionic Liquids
Sheridan Quintin R.,
Schneider William F., Maginn Edward J.
Chemical Reviews. 2018 118(10). p.5242
ChemInform Abstract: Why Are Ionic Liquids Attractive for CO2 Absorption? An Overview
Huang Junhua, Ruether Thomas
ChemInform. 2009 40(34).
Ionic Liquids Completely UnCOILed (2015)
Carbon capture and storage (CCS): the way forward
Bui Mai,
Adjiman Claire S.,
Bardow André,
Anthony Edward J.,
Boston Andy,
Brown Solomon,
Fennell Paul S.,
Fuss Sabine,
Galindo Amparo,
Hackett Leigh A.,
Hallett Jason P.,
Herzog Howard J.,
Jackson George,
Kemper Jasmin,
Krevor Samuel,
Maitland Geoffrey C.,
Matuszewski Michael,
Metcalfe Ian S.,
Petit Camille,
Puxty Graeme,
Reimer Jeffrey,
Reiner David M.,
Rubin Edward S.,
Scott Stuart A.,
Shah Nilay,
Smit Berend,
Trusler J. P. Martin,
Webley Paul,
Wilcox Jennifer, Mac Dowell Niall
Energy & Environmental Science. 2018 11(5). p.1062
Solvation dynamics of coumarin 153 in mixtures of carbon dioxide and room temperature ionic liquids
Kimura Yoshifumi,
Kobayashi Akira,
Demizu Masashi, Terazima Masahide
Chemical Physics Letters. 2011 513(1-3). p.53
Modelling mixtures of ammonium and pyridinium-based ionic liquids and carbon dioxide with the Cubic Plus Association Equation of state
Frias Renan M.,
Follegatti-Romero Luz M., Follegatti-Romero Luis A.
Fluid Phase Equilibria. 2023 574 p.113910
Mechanism and Kinetics Study of CO2 Absorption into Blends of N-Methyldiethanolamine and 1-Hydroxyethyl-3-methylimidazolium Glycine Aqueous Solution
Sun Cheng,
Wen Shujing,
Zhao Jingkai,
Zhao Chongjian,
Li Wei,
Li Sujing, Zhang Dongxiao
Energy & Fuels. 2017 31(11). p.12425
Feasible ionic liquid-amine hybrid solvents for carbon dioxide capture
Cao Lingdi,
Gao Jubao,
Zeng Shaojuan,
Dong Haifeng,
Gao Hongshuai,
Zhang Xiangping, Huang Junhua
International Journal of Greenhouse Gas Control. 2017 66 p.120
Sustainable chemistry: imidazolium salts in biomass conversion and CO2fixation
Zhang Yugen, Chan Jin Young Gerentt
Energy Environ. Sci.. 2010 3(4). p.408
Temperature-dependent structure of ionic liquids: X-ray scattering and simulations
Kashyap Hemant K.,
Santos Cherry S.,
Annapureddy Harsha V. R.,
Murthy N. Sanjeeva,
Margulis Claudio J., Castner, Jr Edward W.
Faraday Discuss.. 2012 154 p.133
Sustainable Energy Supply by Absorption Chillers and Heat Pumps Using Multifunctional Working Pairs
Schneider Marc‐Christoph, Seiler Matthias
Chemie Ingenieur Technik. 2011 83(9). p.1502
Novel amino acid ionic liquids as messenger of multi-tertiary-amines solutions for highly efficient capture of CO2
Wen Shuyue,
Wu Hangzhi,
Zhang Xiaomin,
Wang Tao,
Xu Weigao, Wu Youting
Chemical Engineering Science. 2024 284 p.119530
Synthesis and Characterization of Ammonium-, Pyridinium-, and Pyrrolidinium-Based Sulfonamido Functionalized Ionic Liquids
Saravanamurugan Shunmugavel,
Fehrmann Rasmus, Riisager Anders
Synthetic Communications. 2012 42(22). p.3383
Brønsted acid ionic liquid catalyzed formation of pyruvaldehyde dimethylacetal from triose sugars
Saravanamurugan Shunmugavel, Riisager Anders
Catalysis Today. 2013 200 p.94
Regeneration performance and absorption/desorption mechanism of tetramethylammonium glycinate aqueous solution for carbon dioxide capture
Guo Bing-Song,
Jing Guo-Hua, Zhou Zuo-Ming
International Journal of Greenhouse Gas Control. 2015 34 p.31
Quantification of specific interactions between CO2 and the carbonyl group in polymers via ATR-FTIR measurements
Yuan Yanhui, Teja Amyn S.
The Journal of Supercritical Fluids. 2011 56(2). p.208
Chemically Tunable Ionic Liquids with Aprotic Heterocyclic Anion (AHA) for CO2 Capture
Seo Samuel,
Quiroz-Guzman Mauricio,
DeSilva M. Aruni,
Lee Tae Bum,
Huang Yong,
Goodrich Brett F.,
Schneider William F., Brennecke Joan F.
The Journal of Physical Chemistry B. 2014 118(21). p.5740
The strategies for improving carbon dioxide chemisorption by functionalized ionic liquids
Wang Congmin,
Luo Xiaoyan,
Zhu Xiang,
Cui Guokai,
Jiang De-en,
Deng Dongshun,
Li Haoran, Dai Sheng
RSC Advances. 2013 3(36). p.15518
Ternary Deep Eutectic Solvents Tasked for Carbon Dioxide Capture
Sze Leonhard L.,
Pandey Shubha,
Ravula Sudhir,
Pandey Siddharth,
Zhao Hua,
Baker Gary A., Baker Sheila N.
ACS Sustainable Chemistry & Engineering. 2014 2(9). p.2117
Efficient CO2 capture by a novel deep eutectic solvent through facile, one-pot synthesis with low energy consumption and feasible regeneration
Bi Yingying,
Hu Zhengtian,
Lin Xingyu,
Ahmad Naveed,
Xu Jian, Xu Xia
Science of The Total Environment. 2020 705 p.135798
CO2 capture from ambient air via crystallization with tetraalkylammonium hydroxides
Mishra Manish Kumar,
Smetana Volodymyr,
Hiti Ethan A.,
Wineinger Hannah B.,
Qu Fengrui,
Mudring Anja-Verena, Rogers Robin D.
Dalton Transactions. 2022 51(46). p.17724
Polyaniline/multiwalled carbon nanotubes nanocomposite-an excellent reversible CO2 capture candidate
Kumar Mishra Ashish, Ramaprabhu Sundara
RSC Advances. 2012 2(5). p.1746
Highly Efficient and Reversible SO2 Capture by Tunable Azole-Based Ionic Liquids through Multiple-Site Chemical Absorption
Wang Congmin,
Cui Guokai,
Luo Xiaoyan,
Xu Yingjie,
Li Haoran, Dai Sheng
Journal of the American Chemical Society. 2011 133(31). p.11916
Ionic liquids for CO2 capture using COSMO-RS: Effect of structure, properties and molecular interactions on solubility and selectivity
Sumon Kazi Z., Henni Amr
Fluid Phase Equilibria. 2011 310(1-2). p.39
Functionalized ionic liquids with highly polar polyhydroxylated appendages and their rapid synthesis via thiol-ene click chemistry
O’Brien Richard A.,
Mirjafari Arsalan,
Jajam Vijayakumari,
Capley Erin N.,
Stenson Alexandra C.,
West Kevin N., Davis James H.
Tetrahedron Letters. 2011 52(40). p.5173
Carboxylate‐Assisted Formation of Alkylcarbonate Species from CO2 and Tetramethylammonium Salts with a β‐Amino Acid Anion
Hong Sung Yun,
Cheon Youngeun,
Shin Seung Hoon,
Lee Hyunjoo,
Cheong Minserk, Kim Hoon Sik
ChemSusChem. 2013 6(5). p.890
Energy Applications of Ionic Liquids: Recent Developments and Future Prospects
Zhou Teng,
Gui Chengmin,
Sun Longgang,
Hu Yongxin,
Lyu Hao,
Wang Zihao,
Song Zhen, Yu Gangqiang
Chemical Reviews. 2023 123(21). p.12170
Halogen Bonding Interactions between Brominated Ion Pairs and CO2Molecules: Implications for Design of New and Efficient Ionic Liquids for CO2Absorption
Zhu Xiang,
Lu Yunxiang,
Peng Changjun,
Hu Jun,
Liu Honglai, Hu Ying
The Journal of Physical Chemistry B. 2011 115(14). p.3949
State-of-the-Art of CO2Capture with Ionic Liquids
Ramdin Mahinder,
de Loos Theo W., Vlugt Thijs J.H.
Industrial & Engineering Chemistry Research. 2012 51(24). p.8149
Sorbent Properties of Halide-Free Ionic Liquids for Water and CO2 Perfusion
Brünig Thorge,
Maurer Martin, Pietschnig Rudolf
ACS Sustainable Chemistry & Engineering. 2017 5(8). p.7228
Highly efficient SO2capture through tuning the interaction between anion-functionalized ionic liquids and SO2
Wang Congmin,
Zheng Junjie,
Cui Guokai,
Luo Xiaoyan,
Guo Yan, Li Haoran
Chem. Commun.. 2013 49(12). p.1166
Experimental and Theoretical Analysis of CO2 Absorption in Polyolester Oil Using the PC-SAFT Equation of State to Account for Nonideal Effects
Neto Moisés A. Marcelino, Barbosa Jader R.
Industrial & Engineering Chemistry Research. 2012 51(2). p.1027
Phase-Change Ionic Liquids for Postcombustion CO2 Capture
Seo Samuel,
Simoni Luke D.,
Ma Mengting,
DeSilva M. Aruni,
Huang Yong,
Stadtherr Mark A., Brennecke Joan F.
Energy & Fuels. 2014 28(9). p.5968
CO2 Chemistry of Phenolate-Based Ionic Liquids
Lee Tae Bum,
Oh Seungmin,
Gohndrone Thomas R.,
Morales-Collazo Oscar,
Seo Samuel,
Brennecke Joan F., Schneider William F.
The Journal of Physical Chemistry B. 2016 120(8). p.1509
The molecular characteristics dominating the solubility of gases in ionic liquids
Hu Yu-Feng,
Liu Zhi-Chang,
Xu Chun-Ming, Zhang Xian-Ming
Chemical Society Reviews. 2011 40(7). p.3802
REMOVED: New TSILs containing amino group for CO2 capture produced from simple reaction paths
Palgunadi Jelliarko,
Winoto Haryo, Indarto Antonius
Chemical Engineering Journal. 2012 184 p.298
New molecular structure based models for estimation of the CO2 solubility in different choline chloride-based deep eutectic solvents (DESs)
Dehkordi Farnoosh,
Sobati Mohammad Amin, Gorji Ali Ebrahimpoor
Scientific Reports. 2023 13(1).
Volumetric and phase behaviour of mixtures of tetracyanoborate-based ionic liquids with high pressure carbon dioxide
Zakrzewska Małgorzata E., Nunes da Ponte Manuel
The Journal of Supercritical Fluids. 2016 113 p.31
Experimental study on CO 2 sorption capacity of the neat and porous silica supported ionic liquids and the effect of water content of flue gas
Mirzaei Mojtaba,
Badiei Ali Reza,
Mokhtarani Babak, Sharifi Ali
Journal of Molecular Liquids. 2017 232 p.462
Excess Enthalpy of Monoethanolamine + Ionic Liquid Mixtures: How Good are COSMO-RS Predictions?
Gonzalez-Miquel Maria,
Massel Marjorie,
DeSilva Aruni,
Palomar Jose,
Rodriguez Francisco, Brennecke Joan F.
The Journal of Physical Chemistry B. 2014 118(39). p.11512
High-pressure CO2/N2 and CO2/CH4 separation using dense polysulfone-supported ionic liquid membranes
Alkhouzaam Abdulqader,
Khraisheh Majeda,
Atilhan Mert,
Al-Muhtaseb Shaheen A.,
Qi Letian, Rooney David
Journal of Natural Gas Science and Engineering. 2016 36 p.472
A review of different solvents, mass transfer, and hydrodynamics for postcombustion CO2 capture
Mirzaei Somayeh,
Shamiri Ahmad, Aroua Mohamed Kheireddine
Reviews in Chemical Engineering. 2015 31(6).
Computer-aided ionic liquid design for separation processes based on group contribution method and COSMO-SAC model
Peng Daili,
Zhang Jianan,
Cheng Hongye,
Chen Lifang, Qi Zhiwen
Chemical Engineering Science. 2017 159 p.58
Survey of Carbon Dioxide Capture in Phosphonium-Based Ionic Liquids and End-Capped Polyethylene Glycol Using DETA (DETA = Diethylenetriamine) as a Model Absorbent
Harper Naomi D.,
Nizio Katie D.,
Hendsbee Arthur D.,
Masuda Jason D.,
Robertson Katherine N.,
Murphy Luke J.,
Johnson Michel B.,
Pye Cory C., Clyburne Jason A. C.
Industrial & Engineering Chemistry Research. 2011 50(5). p.2822
Efficient Absorption of CO2 by Introduction of Intramolecular Hydrogen Bonding in Chiral Amino Acid Ionic Liquids
Pan Mingguang,
Zhao Yongsheng,
Zeng Xiaoqin, Zou Jianxin
Energy & Fuels. 2018 32(5). p.6130
Gas-Phase and Ionic Liquid Experimental and Computational Studies of Imidazole Acidity and Carbon Dioxide Capture
Wang Ning, Lee Jeehiun K.
The Journal of Organic Chemistry. 2019 84(22). p.14593
Functionalized ionic liquids for CO
2
capture under ambient pressure
Zhao Hua, Baker Gary A.
Green Chemistry Letters and Reviews. 2023 16(1).
Study on Hydroxylammonium-Based Ionic Liquids. I. Characterization
Aparicio Santiago,
Atilhan Mert,
Khraisheh Majeda, Alcalde Rafael
The Journal of Physical Chemistry B. 2011 115(43). p.12473
Noncovalent interactions in halogenated ionic liquids: theoretical study and crystallographic implications
Li Haiying,
Lu Yunxiang,
Wu Weihong,
Liu Yingtao,
Peng Changjun,
Liu Honglai, Zhu Weiliang
Physical Chemistry Chemical Physics. 2013 15(12). p.4405
An updated review of recent advances on modified technologies in transcritical CO2 refrigeration cycle
Yu Binbin,
Yang Jingye,
Wang Dandong,
Shi Junye, Chen Jiangping
Energy. 2019 189 p.116147
Experimental and modelling study of CO2 absorption in ionic liquids containing Zn (II) ions
Liu Hanming,
Huang Junhua, Pendleton Phillip
Energy Procedia. 2011 4 p.59
Reaction kinetics of CO2 absorption in to phosphonium based anion-functionalized ionic liquids
Gurkan Burcu E.,
Gohndrone Thomas R.,
McCready Mark J., Brennecke Joan F.
Physical Chemistry Chemical Physics. 2013 15(20). p.7796
Development and progress of functionalized silica-based adsorbents for CO2 capture
Fatima Syeda Saba,
Borhan Azry,
Ayoub Muhammad, Abd Ghani Noraini
Journal of Molecular Liquids. 2021 338 p.116913
The 3rd Australasian Symposium on Ionic Liquids (ASIL-3)
Pringle Jennifer M.
Australian Journal of Chemistry. 2009 62(4). p.287
Ternary deep eutectic solvents: Evaluations based on how their physical properties affect energy consumption during post-combustion CO2 capture
Sun Jiasi,
Sato Yuki,
Sakai Yuka, Kansha Yasuki
Energy. 2023 270 p.126901
Tuning the Basicity of Ionic Liquids for Equimolar CO2 Capture
Wang Congmin,
Luo Xiaoyan,
Luo Huimin,
Jiang De‐en,
Li Haoran, Dai Sheng
Angewandte Chemie International Edition. 2011 50(21). p.4918
Cooperative CO2 absorption by amino acid-based ionic liquids with balanced dual sites
Chen Xiaoyan,
Luo Xiaoyan,
Li Jiaran,
Qiu Rongxing, Lin Jinqing
RSC Advances. 2020 10(13). p.7751
Ionic liquid-amine blends and CO2BOLs: Prospective solvents for natural gas sweetening and CO2 capture technology—A review
Kumar Satish,
Cho Jae Hyun, Moon Il
International Journal of Greenhouse Gas Control. 2014 20 p.87
Ionic liquids and acid gas capture: water and oxygen as confounding factors
Murphy Luke J.,
McPherson Alex M.,
Robertson Katherine N., Clyburne Jason A. C.
Chem. Commun.. 2012 48(9). p.1227
Ether-Linked Diamine Carboxylate Ionic Liquid Aqueous Solution for Efficient Absorption of SO2
Jiang Bin,
Hou Shuai,
Zhang Luhong,
Yang Na,
Zhang Na,
Xiao Xiaoming,
Yang Xiaodong,
Sun Yongli, Tantai Xiaowei
Industrial & Engineering Chemistry Research. 2020 59(38). p.16786
Intensification of dimethyaminoethoxyethanol on CO 2 absorption in ionic liquid of amino acid
Zhang Feng,
Gao Kai-Xuan,
Meng Yu-Ning,
Qi Min,
Geng Jiao,
Wu You-Ting, Zhang Zhi-Bing
International Journal of Greenhouse Gas Control. 2016 51 p.415
Investigation uncovered the impact of anions on CO2 absorption by low viscous ether functionalized pyridinium ionic liquids
Hussain Shahid,
Dong Haifeng,
Zeng Shaojuan,
Umair Ahmad Muhammad,
Khurum Shehzad Farooq,
Wu Hui, Zhang Yanqiang
Journal of Molecular Liquids. 2021 336 p.116362
Demonstration of Chemisorption of Carbon Dioxide in 1,3‐Dialkylimidazolium Acetate Ionic Liquids
Gurau Gabriela,
Rodríguez Héctor,
Kelley Steven P.,
Janiczek Peter,
Kalb Roland S., Rogers Robin D.
Angewandte Chemie. 2011 123(50). p.12230
Nanocolloids (2016)
Preparation of ionic liquids amine hybrid solvents, characterization for CO2 absorption, and kinetic performance
Nawaz Khan Saleem,
Abbas Faheem,
Enujekwu Francis M.,
Ullah Sami,
Ali Assiri Mohammed, Al-Sehemi Abdullah G.
Journal of Molecular Liquids. 2024 394 p.123725
Computational Study of Hexamethylguanidinium Lactate Ionic Liquid: A Candidate for Natural Gas Sweetening
Aparicio Santiago, Atilhan Mert
Energy & Fuels. 2010 24(9). p.4989
Understanding the effect of side groups in ionic liquids on carbon-capture properties: a combined experimental and theoretical effort
Yan Fangyong,
Lartey Michael,
Damodaran Krishnan,
Albenze Erik,
Thompson Robert L.,
Kim Jihan,
Haranczyk Maciej,
Nulwala Hunaid B.,
Luebke David R., Smit Berend
Physical Chemistry Chemical Physics. 2013 15(9). p.3264
Influence of water on the carbon dioxide absorption by 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)amide
Husson Pascale,
Pison Laure,
Jacquemin Johan, Gomes Margarida F. Costa
Fluid Phase Equilibria. 2010 294(1-2). p.98
Carbon capture with ionic liquids: overview and progress
Zhang Xiangping,
Zhang Xiaochun,
Dong Haifeng,
Zhao Zhijun,
Zhang Suojiang, Huang Ying
Energy & Environmental Science. 2012 5(5). p.6668
Understanding the fundamental interaction mechanism of hazardous gases and imidazolium based ionic liquids for efficient gas adsorption
Sanchora Paridhi,
Pandey Deepak K.,
Kagdada Hardik L., Singh Dheeraj K.
Chemical Engineering Science. 2022 247 p.117031
Triggering the gas transport in PVdF-HFP membranes via imidazolium ionic liquids
Bernardo Paola,
Zampino Daniela, Clarizia Gabriele
Separation and Purification Technology. 2020 250 p.117201
Ionic-Liquid-Based CO2 Capture Systems: Structure, Interaction and Process
Zeng Shaojuan,
Zhang Xiangping,
Bai Lu,
Zhang Xiaochun,
Wang Hui,
Wang Jianji,
Bao Di,
Li Mengdie,
Liu Xinyan, Zhang Suojiang
Chemical Reviews. 2017 117(14). p.9625
New molecular basket sorbents for CO2 capture based on mesoporous sponge-like TUD-1
Wang Xiaoxing,
Song Chunshan,
Gaffney Anne M., Song Ruozhi
Catalysis Today. 2014 238 p.95
Demonstration of Chemisorption of Carbon Dioxide in 1,3‐Dialkylimidazolium Acetate Ionic Liquids
Gurau Gabriela,
Rodríguez Héctor,
Kelley Steven P.,
Janiczek Peter,
Kalb Roland S., Rogers Robin D.
Angewandte Chemie International Edition. 2011 50(50). p.12024
Novel Catalytic and Separation Processes Based on Ionic Liquids (2017)
Carbon Dioxide Capture by an Amine Functionalized Ionic Liquid: Fundamental Differences of Surface and Bulk Behavior
Niedermaier Inga,
Bahlmann Matthias,
Papp Christian,
Kolbeck Claudia,
Wei Wei,
Krick Calderón Sandra,
Grabau Mathias,
Schulz Peter S.,
Wasserscheid Peter,
Steinrück Hans-Peter, Maier Florian
Journal of the American Chemical Society. 2014 136(1). p.436
Predicting properties of new ionic liquids: density functional theory and experimental studies of tetra-alkylammonium salts of (thio)carboxylate anions, RCO2−, RCOS− and RCS2−
Rees Robert J.,
Lane George H.,
Hollenkamp Anthony F., Best Adam S.
Physical Chemistry Chemical Physics. 2011 13(22). p.10729
Simultaneous measurement of CO2 sorption and swelling of phosphate-based ionic liquid
Wang Junfeng,
Petit Camille,
Zhang Xiangping, Park Ah-Hyung Alissa
Green Energy & Environment. 2016 1(3). p.258
Equimolar Carbon Dioxide Absorption by Ether Functionalized Imidazolium Ionic Liquids
Sharma Pankaj,
Park Sang-Do,
Park Ki-Tae,
Jeong Soon-Kwan,
Nam Sung-Chan, Baek Il-Hyun
Bulletin of the Korean Chemical Society. 2012 33(7). p.2325
CO2 Capture in Ionic Liquids Based on Amino Acid Anions With Protic Side Chains: a Computational Assessment of Kinetically Efficient Reaction Mechanisms
Onofri Stefano,
Adenusi Henry,
Le Donne Andrea, Bodo Enrico
ChemistryOpen. 2020 9(11). p.1153
Process Systems and Materials for CO2 Capture (2017)
Design and Characterization of Liquidlike POSS-Based Hybrid Nanomaterials Synthesized via Ionic Bonding and Their Interactions with CO2
Petit Camille,
Lin Kun-Yi Andrew, Park Ah-Hyung Alissa
Langmuir. 2013 29(39). p.12234
New Trends in the Separation of Significant Greenhouse Gases from Flue Gas Streams
Witasek Roman, Pánek Petr
Advanced Materials Research. 2014 1020 p.573
Molecular Dynamics Investigation of Efficient SO2 Absorption by Anion-Functionalized Ionic Liquids
MONDAL ANIRBAN, BALASUBRAMANIAN SUNDARAM
Journal of Chemical Sciences. 2017 129(7). p.859
Protic ionic liquid as excellent shuttle of MDEA for fast capture of CO2
Zheng Wen‐Tao,
Huang Kuan,
Wu You‐Ting, Hu Xing‐Bang
AIChE Journal. 2018 64(1). p.209
CO2 Dynamics in Pure and Mixed-Metal MOFs with Open Metal Sites
Marti Robert M.,
Howe Joshua D.,
Morelock Cody R.,
Conradi Mark S.,
Walton Krista S.,
Sholl David S., Hayes Sophia E.
The Journal of Physical Chemistry C. 2017 121(46). p.25778
Connection between empty volume and solubility of light gases in [CnMIM][NTf2] ionic liquids
Shelepova Ekaterina A., Medvedev Nikolai N.
Journal of Molecular Liquids. 2022 368 p.120740
Advanced Applications of Ionic Liquids (2023)
Temperature-programmed desorption of CO2 from polyethylenimine-loaded SBA-15 as molecular basket sorbents
Wang Xiaoxing, Song Chunshan
Catalysis Today. 2012 194(1). p.44
Study on the absorption of carbon dioxide in high concentrated MDEA and ILs solutions
Feng Zhang,
Jing-Wen Ma,
Zheng Zhou,
You-Ting Wu, Zhi-Bing Zhang
Chemical Engineering Journal. 2012 181-182 p.222
A simple guiding principle for the temperature dependence of the solubility of light gases in imidazolium-based ionic liquids derived from molecular simulations
Kerlé Daniela,
Namayandeh Jorabchi Majid,
Ludwig Ralf,
Wohlrab Sebastian, Paschek Dietmar
Physical Chemistry Chemical Physics. 2017 19(3). p.1770
Optical trapping and spectroscopic characterisation of ionic liquid solutions
Moore Lee J.,
Summers Michael D., Ritchie Grant A. D.
Physical Chemistry Chemical Physics. 2013 15(32). p.13489
Solubility of CO2 in deep eutectic solvents: Experiments and modelling using the Peng–Robinson equation of state
Ali Emad,
Hadj-Kali Mohamed K.,
Mulyono Sarwono,
Alnashef Inas,
Fakeeha Anis,
Mjalli Farouq, Hayyan Adeeb
Chemical Engineering Research and Design. 2014 92(10). p.1898
CO2 Capture and in situ Catalytic Transformation
Fu Hong-Chen,
You Fei,
Li Hong-Ru, He Liang-Nian
Frontiers in Chemistry. 2019 7
