On the Dissolution of Vapors and Gases

The captive bubble technique in combination with axisymmetric drop shape analysis (ADSA-CB) and with micro gas chromatography is used to study the dynamics of dissolution of different gases and vapors in water in situ. The technique yields the changes in the interfacial tension and bubble volume and...

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Published inLangmuir Vol. 23; no. 4; pp. 1815 - 1823
Main Authors Wüstneck, N, Wüstneck, R, Pison, U, Möhwald, H
Format Journal Article
LanguageEnglish
Published Washington, DC American Chemical Society 13.02.2007
Subjects
Chemistry
Electrochemistry
Exact sciences and technology
Gases - chemistry
General and physical chemistry
Volatilization
Water - chemistry
Xenon - chemistry
Water
Shape
Interface tension
In situ
Partition coefficient
Intermolecular interaction
Bubble
Dynamics
Alkanol
Water solubility
Hexane
Diffusion coefficient
Methanol
Nitrogen oxide
Chloroform
Molecular diffusion
Ether
Xenon
Water vapor
Dissolution
Equilibrium
Ethane
Drop
Gas chromatography
Gases
Electrochemistry
Models
Surface tension
Nitrogen protoxide
Physicochemical properties
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Abstract The captive bubble technique in combination with axisymmetric drop shape analysis (ADSA-CB) and with micro gas chromatography is used to study the dynamics of dissolution of different gases and vapors in water in situ. The technique yields the changes in the interfacial tension and bubble volume and surface. As examples, the dissolution of methanol and hexane vapors, inhaled anesthetic vapors, and gases, that is, diethyl ether, chloroform, isoflurane, enflurane, sevoflurane, desflurane, N2O, and xenon, and as nonimmobilizers perfluoropentane and 1,1,2-trichloro-1,2,2-trifluoro-ethane (R113) were investigated. The examination of interfacial tension−time and bubble volume−time functions permits us to distinguish between water-soluble and -insoluble substances, gases, and vapors. Vapors and gases generally differ in terms of the strength of their intermolecular interactions. The main difference between dissolution processes of gases and vapors is that, during the entire process of gas dissolution, no surface tension change occurs. In contrast, during vapor dissolution the surface tension drops immediately and decreases continuously until it reaches the equilibrium surface tension of water at the end of dissolution. The results of this study show that it is possible to discriminate anesthetic vapors from anesthetic gases and nonimmobilizers by comparing their dissolution dynamics. The nonimmobilizers have extremely low or no solubility in water and change the surface tension only negligibly. By use of newly defined molecular dissolution/diffusion coefficients, a simple model for the determination of partition coefficients is developed.
AbstractList The captive bubble technique in combination with axisymmetric drop shape analysis (ADSA-CB) and with micro gas chromatography is used to study the dynamics of dissolution of different gases and vapors in water in situ. The technique yields the changes in the interfacial tension and bubble volume and surface. As examples, the dissolution of methanol and hexane vapors, inhaled anesthetic vapors, and gases, that is, diethyl ether, chloroform, isoflurane, enflurane, sevoflurane, desflurane, N2O, and xenon, and as nonimmobilizers perfluoropentane and 1,1,2-trichloro-1,2,2-trifluoro-ethane (R113) were investigated. The examination of interfacial tension-time and bubble volume-time functions permits us to distinguish between water-soluble and -insoluble substances, gases, and vapors. Vapors and gases generally differ in terms of the strength of their intermolecular interactions. The main difference between dissolution processes of gases and vapors is that, during the entire process of gas dissolution, no surface tension change occurs. In contrast, during vapor dissolution the surface tension drops immediately and decreases continuously until it reaches the equilibrium surface tension of water at the end of dissolution. The results of this study show that it is possible to discriminate anesthetic vapors from anesthetic gases and nonimmobilizers by comparing their dissolution dynamics. The nonimmobilizers have extremely low or no solubility in water and change the surface tension only negligibly. By use of newly defined molecular dissolution/diffusion coefficients, a simple model for the determination of partition coefficients is developed.
The captive bubble technique in combination with axisymmetric drop shape analysis (ADSA-CB) and with micro gas chromatography is used to study the dynamics of dissolution of different gases and vapors in water in situ. The technique yields the changes in the interfacial tension and bubble volume and surface. As examples, the dissolution of methanol and hexane vapors, inhaled anesthetic vapors, and gases, that is, diethyl ether, chloroform, isoflurane, enflurane, sevoflurane, desflurane, N2O, and xenon, and as nonimmobilizers perfluoropentane and 1,1,2-trichloro-1,2,2-trifluoro-ethane (R113) were investigated. The examination of interfacial tension−time and bubble volume−time functions permits us to distinguish between water-soluble and -insoluble substances, gases, and vapors. Vapors and gases generally differ in terms of the strength of their intermolecular interactions. The main difference between dissolution processes of gases and vapors is that, during the entire process of gas dissolution, no surface tension change occurs. In contrast, during vapor dissolution the surface tension drops immediately and decreases continuously until it reaches the equilibrium surface tension of water at the end of dissolution. The results of this study show that it is possible to discriminate anesthetic vapors from anesthetic gases and nonimmobilizers by comparing their dissolution dynamics. The nonimmobilizers have extremely low or no solubility in water and change the surface tension only negligibly. By use of newly defined molecular dissolution/diffusion coefficients, a simple model for the determination of partition coefficients is developed.
Author Wüstneck, N
Pison, U
Wüstneck, R
Möhwald, H
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Issue 4
Keywords Water
Shape
Interface tension
In situ
Partition coefficient
Intermolecular interaction
Bubble
Dynamics
Alkanol
Water solubility
Hexane
Diffusion coefficient
Methanol
Nitrogen oxide
Chloroform
Molecular diffusion
Ether
Xenon
Water vapor
Dissolution
Equilibrium
Ethane
Drop
Gas chromatography
Gases
Electrochemistry
Models
Surface tension
Nitrogen protoxide
Physicochemical properties
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Snippet The captive bubble technique in combination with axisymmetric drop shape analysis (ADSA-CB) and with micro gas chromatography is used to study the dynamics of...
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SubjectTerms Chemistry
Electrochemistry
Exact sciences and technology
Gases - chemistry
General and physical chemistry
Volatilization
Water - chemistry
Xenon - chemistry
Title On the Dissolution of Vapors and Gases
URI http://dx.doi.org/10.1021/la0622931
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https://www.ncbi.nlm.nih.gov/pubmed/17279661
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Volume 23
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