Porous amino acid-functionalized poly(ionic liquid) foamed with supercritical CO2 and its application in CO2 adsorption

Abstract In this study, seven amino acid-based poly(ionic liquid)s (AAPILs) such as poly(1-butyl-3-vinylimidazolium glycinate), P[VBIm][Gly], poly (1-butyl-3-vinylimidazolium alaninate), P[VBIm][Ala], poly(1-butyl-3-vinylimidazolium valinate), P[VBIm][Val], poly(1-butyl-3-vinylimidazolium prolinate) P[VBIm][Pro], poly(1-butyl-3-vinylimidazolium hisdinate), P[VBIm][His], poly(1-butyl-3-vinylimidazolium lysinate), P[VBIm][Lys], and poly(1-butyl-3-vinylimidazolium arginate), P[VBIm][Arg] have been synthesized, characterized, and their CO2 absorption capacities were investigated using quartz crystal microbalance (QCM) at temperature range 288.15–308.15 and pressures up to 5 bar. Based on the absorption mechanism, the reaction equilibrium thermodynamic model is applied to correlating the experimental CO2 absorption capacities. The reaction equilibrium constant and Henry’s law constant were calculated to evaluate the efficiency of the AAPILs for CO2 absorption. In the investigated AAPILs, the CO2 absorption capacity was as follows: P[VBIm][Arg] > P[VBIm][Lys] > P[VBIm][His] > P[VBIm][Pro] > P[VBIm][Gly] > P[VBIm][Val] > P[VBIm][Ala]. The accessibility of available more amine groups in AAPIL with arginate anion is the main factor for the high CO2 absorption capacity. Also, chemical absorption of CO2 via carbamate formation was corroborated by FT-IR spectroscopy.

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Antibacterial Amino Acid-Based Poly(ionic liquid) Membranes: Effects of Chirality, Chemical Bonding Type, and Application for MRSA Skin Infections

ACS Applied Bio Materials ◽

10.1021/acsabm.9b00619 ◽

2019 ◽

Vol 2 (10) ◽

pp. 4418-4426

Author(s):

Jiangna Guo ◽

Yuanmei Qian ◽

Bin Sun ◽

Zhe Sun ◽

Zhengsheng Chen ◽

...

Keyword(s):

Ionic Liquid ◽

Amino Acid ◽

Chemical Bonding ◽

Liquid Membranes ◽

Skin Infections ◽

Bonding Type ◽

Poly Ionic Liquid

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CO2 adsorption using amino acid ionic liquid-impregnated mesoporous silica sorbents with different textural properties

Microporous and Mesoporous Materials ◽

10.1016/j.micromeso.2019.01.011 ◽

2019 ◽

Vol 278 ◽

pp. 378-386 ◽

Cited By ~ 6

Author(s):

Yusuke Uehara ◽

Davood Karami ◽

Nader Mahinpey

Keyword(s):

Ionic Liquid ◽

Amino Acid ◽

Mesoporous Silica ◽

Co2 Adsorption ◽

Textural Properties ◽

Amino Acid Ionic Liquid

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Synthesis of POSS-based star-shaped poly(ionic liquid)s and its application in supercritical CO2 microcellular foaming of polystyrene

Journal of Polymer Research ◽

10.1007/s10965-016-1142-y ◽

2016 ◽

Vol 23 (12) ◽

Cited By ~ 2

Author(s):

Zhicai He ◽

Mingqiang Zhong ◽

Yin Yang ◽

Chenglin Wu ◽

Jintao Yang

Keyword(s):

Ionic Liquid ◽

Supercritical Co2 ◽

Microcellular Foaming ◽

Poly Ionic Liquid

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Imidazolium based poly(ionic liquid)s@MIL-101 for the CO2 adsorption and subsequent catalytic cycloaddition without additional cocatalyst and solvent

New Journal of Chemistry ◽

10.1039/d1nj05358b ◽

2022 ◽

Author(s):

Yichen Jiang ◽

Yifei Zhao ◽

Lin Liang ◽

Xiao Zhang ◽

Jianmin Sun

Keyword(s):

Ionic Liquid ◽

Co2 Adsorption ◽

Poly Ionic Liquid

Imidazolium based ionic liquid 1,n-dialkyl-3,3’-bis-1-vinyl imidazolium dibromide (n = 2, 4, 6) monomers were synthesized and further polymerized inside the MIL-101 framework to afford poly(ionic liquid)@MIL-101 composites (PIL-n@MIL-101, n =...

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A Novel Poly(Ionic Liquid) as the Thermal Insulating Material

Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering) ◽

10.2174/2405520413666200207114107 ◽

2020 ◽

Vol 13 (3) ◽

pp. 241-247

Author(s):

Wenxin Wei ◽

Guifeng Ma ◽

Hongtao Wang ◽

Jun Li

Keyword(s):

Thermal Conductivity ◽

Ionic Liquid ◽

Glass Transition ◽

Transition Temperature ◽

Glass Transition Temperature ◽

Flame Resistance ◽

Insulating Material ◽

Low Thermal Conductivity ◽

Thermal Insulating ◽

Poly Ionic Liquid

Objective: A new poly(ionic liquid)(PIL), poly(p-vinylbenzyltriphenylphosphine hexafluorophosphate) (P[VBTPP][PF6]), was synthesized by quaternization, anion exchange reaction, and free radical polymerization. Then a series of the PIL were synthesized at different conditions. Methods: The specific heat capacity, glass-transition temperature and melting temperature of the synthesized PILs were measured by differential scanning calorimeter. The thermal conductivities of the PILs were measured by the laser flash analysis method. Results: Results showed that, under optimized synthesis conditions, P[VBTPP][PF6] as the thermal insulator had a high glass-transition temperature of 210.1°C, high melting point of 421.6°C, and a low thermal conductivity of 0.0920 W m-1 K-1 at 40.0°C (it was 0.105 W m-1 K-1 even at 180.0°C). The foamed sample exhibited much low thermal conductivity λ=0.0340 W m-1 K-1 at room temperature, which was comparable to a commercial polyurethane thermal insulating material although the latter had a much lower density. Conclusion: In addition, mixing the P[VBTPP][PF6] sample into polypropylene could obviously increase the Oxygen Index, revealing its efficient flame resistance. Therefore, P[VBTPP][PF6] is a potential thermal insulating material.

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