1-Octanol/Water Partition Coefficients of Dialkylated Methylimidazolium Halide Salts

1-Octanol/Water Partition Coefficients of Dialkylated Methylimidazolium Halide Salts

John H. Summerfield

Contact

Marissa K. Gard

Contact

Elliot G. Ennis

Contact

Missouri Southern State University

1-Octanol/Water Partition Coefficients of Dialkylated Methylimidazolium Halide Salts

Article Fingerprint

ReserarchID

DY9BH

1-Octanol/Water Partition Coefficients of Dialkylated Methylimidazolium Halide Salts Banner

AI TAKEAWAY

Connecting with the Eternal Ground

Abstract

Dialkylated methylimidazolium halide salts are a current research topic. The 1octanol/water partition coeffcient for these salts has come to signify the tendency of a charged organic molecule to cross a biological membrane, be sequested in soil, and indicate the lethal dose of the chemical. The purpose of this work is to add to existing data for the 1-octanol/water partition coeffcient for these salts. The novelty of this work is that dialkylated methylimidazolium salts are investigated.

References

35 Cites in Article

Reference Format

L Ropel,L Belvèze,S Aki (2005). 1-octanol-water Partition Coefficients of Imidazolium-based Ionic Liquids.
F Hernat,H Yu (2015). Ion Chromatography of Tri-Substituted Imidazolium Ionic Liquid Cations: Method and Application for Octanol-Water Partition Coefficient (K OW ) Determination.
Victor Levin (1980). Relationship of octanol/water partition coefficient and molecular weight to rat brain capillary permeability.
Chul-Woong Cho,Ulrich Preiss,Christian Jungnickel,Stefan Stolte,Jürgen Arning,Johannes Ranke,Andreas Klamt,Ingo Krossing,Jorg Thöming (2011). Ionic Liquids: Predictions of Physicochemical Properties with Experimental and/or DFT-Calculated LFER Parameters To Understand Molecular Interactions in Solution.
Urszula Domańska,Marek Królikowski,Aneta Pobudkowska,Patrycja Bocheńska (2012). Solubility of ionic liquids in water and octan-1-ol and octan-1-ol/water, or 2-phenylethanol/water partition coefficients.
E Ennis,S Handy (2009). A Facile Route to C2-Substituted Imidazolium Ionic Liquids.
Till Cremer,Claudia Kolbeck,Kevin Lovelock,Natalia Paape,René Wölfel,Peter Schulz,Peter Wasserscheid,Henry Weber,Jens Thar,Barbara Kirchner,Florian Maier,Hans‐peter Steinrück (2010). Towards a Molecular Understanding of Cation–Anion Interactions—Probing the Electronic Structure of Imidazolium Ionic Liquids by NMR Spectroscopy, X‐ray Photoelectron Spectroscopy and Theoretical Calculations.
Walid Awad,Jeffrey Gilman,Marc Nyden,Richard Harris,Thomas Sutto,John Callahan,Paul Trulove,Hugh Delong,Douglas Fox (2004). Thermal degradation studies of alkyl-imidazolium salts and their application in nanocomposites.
Scott Handy,Maurice Okello (2005). The 2-Position of Imidazolium Ionic Liquids: Substitution and Exchange.
T Endo,K Nishikawa Effects of Methylation at Position 2 of Cation Ring on Rotational Dynamics of Imidazolium-Based Ionic Liquids Investigated by NMR Spectroscopy.
Takatsugu Endo,Tatsuya Kato,Keiko Nishikawa (2010). Effects of Methylation at the 2 Position of the Cation Ring on Phase Behaviors and Conformational Structures of Imidazolium-Based Ionic Liquids.
Q Lin,F Huang,M Liu (2008). Imidazolium-Salt-Based Fluorescent Chemosensor for Cu(II), Zn(II) and Co(II).
P Sassi,M Paolantoni,R Cataliotti (2004). Water/Alcohol Mixtures: A Spectroscopic Study of the Water-saturated 1-octanol Solution.
Jack De Bruijn,Frans Busser,Willem Seinen,Joop Hermens (2009). Determination of octanol/water partition coefficients for hydrophobic organic chemicals with the “slow-stirring” method.
G Veith,N Austin,R Morris (1979). A rapid method for estimating log P for organic chemicals.
Robert Rapaport,Steven Eisenreich (1984). Chromatographic determination of octanol-water partition coefficients (Kow's) for 58 PCB polychlorinated biphenyl congeners.
Us Epa (1996). Product Properties Test Guidelines: Partition Coefficients (n-1-octanol/water), Estimation by Liquid Chromatography.
H Devoe,M Miller,S Wasik (1981). Generator Columns and High Pressure Liquid Chromatography for Determining Aqueous Solubilities and Octanol-Water Partition Coefficients of Hydrophobic Substances.
Mark Harris,Jennifer Logan (2014). Determination of log <i>K</i><sub>ow</sub> Values for Four Drugs.
(2015). Masthead.
Tiejun Cheng,Yuan Zhao,Xun Li,Fu Lin,Yong Xu,Xinglong Zhang,Yan Li,Renxiao Wang,Luhua Lai (2007). Computation of Octanol−Water Partition Coefficients by Guiding an Additive Model with Knowledge.
D Evans,S Rubenstein (2015). ChemDraw Professional.
Van Leeuwen (2003). Technical Guidance Document on Risk Assessment, European Communities.
(2015). Sussex Drug Discovery Centre, sussexdrug discovery.
M Montalbán,M Collado-González,R Trigo (2015). Experimental Measurements of Octanol-Water Partition Coefficients of Ionic Liquids.
Dan Hâncu,Eric Beckman (2001). Generation of hydrogen peroxide directly from H2 and O2 using CO2 as the solvent.
C Margulis,H Stern,B Berne (2002). Computer Simulation of a Green Chemistry Room-temperature Ionic Solvent.
Alexandre Chapeaux,Luke Simoni,Mark Stadtherr,Joan Brennecke (2007). Liquid Phase Behavior of Ionic Liquids with Water and 1-Octanol and Modeling of 1-Octanol/Water Partition Coefficients.
S Katkevica,A Zicmanis,P Mekss (2010). Imidazolium and Pyridinium Salts---Solvents Influencing the Rate and Direction of the Fries, Beckmann, and Claisen Rearrangements.
Ana Cláudio,Mara Freire,Carmen Freire,Armando Silvestre,João Coutinho (2010). Extraction of vanillin using ionic-liquid-based aqueous two-phase systems.
Mara Freire,Catarina Neves,Isabel Marrucho,José Canongia Lopes,Luís Rebelo,João Coutinho (2010). High-performance extraction of alkaloids using aqueous two-phase systems with ionic liquids.
Yun Deng,Pascale Besse-Hoggan,Martine Sancelme,Anne-Marie Delort,Pascale Husson,Margarida Costa Gomes (2011). Influence of oxygen functionalities on the environmental impact of imidazolium based ionic liquids.
D Mackay,A Bobra,W Shiu,S Yalkowsky (1980). Relationships between aqueous solubility and octanol-water partition coefficients.
S Banerjee,S Yalkowsky,S Valvani (1980). Water Solubility and Octanol/water Partition Coefficients of Organics. Limitations of the Solubility-partition Coefficient Correlation.
D Hartmann,K Shimizu,F Siopa (2015). Plasma Membrane Permeability by Ionic Liquids: A matter of Charge.

Download References

Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

John H. Summerfield. 2016. \u201c1-Octanol/Water Partition Coefficients of Dialkylated Methylimidazolium Halide Salts\u201d. Global Journal of Science Frontier Research - B: Chemistry GJSFR-B Volume 15 (GJSFR Volume 15 Issue B6).

More Citation Formats

Select Citation Style:

Download Citation

GJSFR Volume 15 Issue B6

Explore Journals Explore Volume Read This Issue

Journal Specifications

Crossref Journal DOI 10.17406/GJSFR

Print ISSN 0975-5896

e-ISSN 2249-4626

Keywords

Not Found

Classification

GJSFR-B Classification FOR Code: 860602

Submission ReceivedOctober 31, 2015
Peer Review Double Blind
Handling Editor
Accepted November 28, 2015
Published December 13, 2015

Version of record

v1.2

Issue date

January 17, 2016

Language

Experiance in AR

Explore published articles in an immersive Augmented Reality environment. Our platform converts research papers into interactive 3D books, allowing readers to view and interact with content using AR and VR compatible devices.

View in VR

Read in 3D

Your published article is automatically converted into a realistic 3D book. Flip through pages and read research papers in a more engaging and interactive format.

View in 3D

Article Matrices

Total Score: 133

Country: United States

Subject: Global Journal of Science Frontier Research - B: Chemistry

Authors: Marissa K. Gard, Elliot G. Ennis, John H. Summerfield (PhD/Dr. count: 0)

View Count (all-time): 209

Total Views (Real + Logic): 4071

Total Downloads (simulated): 1991

Publish Date: 2016 01, Sun

Monthly Totals (Real + Logic):

Month 1: 64 views
Month 2: 53 views
Month 3: 38 views
Month 4: 40 views
Month 5: 53 views
Month 6: 44 views
Month 7: 49 views
Month 8: 52 views
Month 9: 25 views
Month 10: 28 views
Month 11: 44 views
Month 12: 29 views
Month 13: 19 views
Month 14: 35 views
Month 15: 46 views
Month 16: 17 views
Month 17: 39 views
Month 18: 40 views
Month 19: 24 views
Month 20: 30 views
Month 21: 18 views
Month 22: 40 views
Month 23: 19 views
Month 24: 48 views
Month 25: 36 views
Month 26: 19 views
Month 27: 33 views
Month 28: 43 views
Month 29: 40 views
Month 30: 31 views
Month 31: 31 views
Month 32: 22 views
Month 33: 16 views
Month 34: 30 views
Month 35: 42 views
Month 36: 31 views
Month 37: 27 views
Month 38: 28 views
Month 39: 23 views
Month 40: 30 views
Month 41: 27 views
Month 42: 20 views
Month 43: 30 views
Month 44: 46 views
Month 45: 13 views
Month 46: 34 views
Month 47: 22 views
Month 48: 35 views
Month 49: 34 views
Month 50: 45 views
Month 51: 13 views
Month 52: 34 views
Month 53: 44 views
Month 54: 39 views
Month 55: 28 views
Month 56: 36 views
Month 57: 35 views
Month 58: 46 views
Month 59: 10 views
Month 60: 29 views
Month 61: 18 views
Month 62: 38 views
Month 63: 40 views
Month 64: 30 views
Month 65: 34 views
Month 66: 22 views
Month 67: 27 views
Month 68: 24 views
Month 69: 20 views
Month 70: 31 views
Month 71: 40 views
Month 72: 29 views
Month 73: 30 views
Month 74: 37 views
Month 75: 32 views
Month 76: 42 views
Month 77: 45 views
Month 78: 24 views
Month 79: 35 views
Month 80: 34 views
Month 81: 43 views
Month 82: 36 views
Month 83: 25 views
Month 84: 22 views
Month 85: 32 views
Month 86: 40 views
Month 87: 39 views
Month 88: 20 views
Month 89: 29 views
Month 90: 27 views
Month 91: 35 views
Month 92: 37 views
Month 93: 26 views
Month 94: 23 views
Month 95: 21 views
Month 96: 17 views
Month 97: 46 views
Month 98: 25 views
Month 99: 26 views
Month 100: 27 views
Month 101: 17 views
Month 102: 17 views
Month 103: 27 views
Month 104: 35 views
Month 105: 31 views
Month 106: 15 views
Month 107: 35 views
Month 108: 35 views
Month 109: 17 views
Month 110: 34 views
Month 111: 30 views
Month 112: 15 views
Month 113: 18 views
Month 114: 15 views
Month 115: 23 views
Month 116: 44 views
Month 117: 39 views
Month 118: 29 views
Month 119: 14 views
Month 120: 27 views
Month 121: 33 views
Month 122: 43 views
Month 123: 59 views
Month 124: 46 views

Total Views: 4071

Total Downloads: 1991

2026 Trends

Our website is actively being updated, and changes may occur frequently. Please clear your browser cache if needed. For feedback or error reporting, please email [email protected]