Exploring molecular recognition pathways within a family of gelators with different hydrogen bonding motifs

Hardy, John G. and Hirst, Andrew R. and Ashworth, Ian and Brennan, Colin and Smith, David K. (2007) Exploring molecular recognition pathways within a family of gelators with different hydrogen bonding motifs. Tetrahedron, 63 (31). pp. 7397-7406. ISSN 0040-4020

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Abstract

We report the synthesis of a family of gelators in which alkyl chains are connected to the amino groups of L-lysine methyl ester using a range of different hydrogen bonding linking groups (carbamate, amide, urea, thiourea and diacylhydrazine) using simple synthetic methodology based on isocyanate or acid chloride chemistry. The ability of these compounds to gelate organic solvents such as toluene or cyclohexane can be directly related to the ability of the linking group to form intermolecular hydrogen bonds. In general terms, the ability to structure solvents can be considered as: thiourea <carbamate <amide <urea similar to diacylhydrazine. This process has been confirmed by thermal measurements, scanning electron microscopy (SEM) and infrared and circular dichroism spectroscopies. By deprotecting the methyl ester group, we have demonstrated that a balance between hydrophobic and hydrophilic groups is essential-if the system has too much hydrophilicity (e. g., diacylhydrazine, urea) it will not form gels due to low solubility in the organic media. However, the less effective gelators based on amide and carbamate linkages are enhanced by converting the methyl ester to a carboxylic acid. Furthermore, subsequent mixing of the acid with a second component (diaminododecane) further enhances the ability to form networks, and, in the case of the amide, generates a two-component gel, which can immobilise a wide range of solvents of industrial interest including petrol and diesel (fuel oils), olive oil and sunflower oil (renewable food oils) and ethyl laurate, isopropyl myristate and isopropyl palmitate (oils used in pharmaceutical formulation). The gels are all thermoreversible, and may therefore be useful in controlled release/formulation applications. (c) 2007 Elsevier Ltd. All rights reserved.

Item Type:
Journal Article
Journal or Publication Title:
Tetrahedron
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1300/1303
Subjects:
?? gel-phase materials2-component dendritic gell-lysine derivativesweight hydrogelatorsorganic liquidscontrollable nanomaterialssupramolecular gelspeptidic dendrimersmass gelatorsone-componentchemistry(all)materials science (miscellaneous)biochemistryorganic ??
ID Code:
75403
Deposited By:
Deposited On:
09 Sep 2015 06:32
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jul 2024 15:23