Insight into the Effect of Physicochemical Properties on CO2 Absorption Behavior of Imidazole Anion-Functionalized Ionic Liquids

IF 1.4 4区 化学 Q4 CHEMISTRY, PHYSICAL
Jiani Wang, Yuxing He, Tingting Chen, Yingjie Xu, Bin Chen
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引用次数: 0

Abstract

Three imidazole anion-functionalized ionic liquids (IFILs) with tributylethylphosphonium ([P4442]+) cation and imidazolate ([Im]), 4-methylimidazolate ([4-MeIm]), or 4-bromimidazolate ([4-BrIm]) anions were prepared to study the effect of physicochemical properties on CO2 absorption behavior. Density (ρ), viscosity (η), and speed of sound (u) of the studied IFILs were measured, and molecular volume (Vm), standard entropy (S0), lattice energy (UPOT), and isentropic compressibility coefficient (κs) were calculated accordingly. CO2 absorption behavior of [P4442][Im] at T = 313.15–333.15 K and p = 0.2 and 1 bar was investigated as an example. The results show that with the increase of temperature, ρ, η, u, and UPOT decrease, while Vm, S0, and κs increase, due to a decrease in electrostatic interaction correspondingly. The orders of ρ, u, η, Vm, and S0 values are as follows: [P4442][Im] < [P4442][4-MeIm] < [P4442][4-BrIm], while UPOT and κs are in reverse order. Interestingly, CO2 capture capacity of IFILs is approximately linear with η or κs. Due to low η and high κs, CO2 absorption capacity of [P4442][Im] is almost independent of temperature and partial pressure, as high as 0.90 mol CO2/mol IL at 333.15 K and 0.2 bar, indicating that [P4442][Im] has potential applications for CO2 absorption at high temperature and low pressure.

Abstract Image

理化性质对咪唑阴离子功能化离子液体CO2吸收行为的影响
制备了三种咪唑阴离子官能化离子液体(IFILs),其具有三丁基乙基鏻([P4442]+)阳离子和咪唑酸盐([Im]-)、4-甲基咪唑酸盐[4-MeIm]-)或4-溴咪唑酸盐/[4-BrIm]-阴离子,以研究理化性质对CO2吸收行为的影响。测量了所研究的IFIL的密度(ρ)、粘度(η)和声速(u),并相应地计算了分子体积(Vm)、标准熵(S0)、晶格能(UPOT)和等熵压缩系数(κs)。[P4442][Im]在T下的CO2吸收行为 = 313.15–333.15 K和p = 0.2和1巴的压力下进行了研究。结果表明,随着温度的升高,ρ、η、u和UPOT降低,而Vm、S0和κs增加,这是由于静电相互作用相应减少。ρ、u、η、Vm和S0值的阶数如下:[P4442][Im]<;[P4442][4-MeIm]<;[P4442][4-BrIm],而UPOT和κs的顺序相反。有趣的是,IFILs的CO2捕获能力与η或κs近似线性。由于低η和高κs,[P4442][Im]的CO2吸收能力几乎与温度和分压无关,在333.15K和0.2bar下高达0.90mol CO2/mol IL,表明[P4442][Im]在高温低压下具有潜在的CO2吸收应用。
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来源期刊
Journal of Solution Chemistry
Journal of Solution Chemistry 化学-物理化学
CiteScore
2.30
自引率
0.00%
发文量
87
审稿时长
3-8 weeks
期刊介绍: Journal of Solution Chemistry offers a forum for research on the physical chemistry of liquid solutions in such fields as physical chemistry, chemical physics, molecular biology, statistical mechanics, biochemistry, and biophysics. The emphasis is on papers in which the solvent plays a dominant rather than incidental role. Featured topics include experimental investigations of the dielectric, spectroscopic, thermodynamic, transport, or relaxation properties of both electrolytes and nonelectrolytes in liquid solutions.
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