ISSN:
1435-1536
Keywords:
Phase diagram
;
identical and mixed chain di-n-alkyl phosphates
;
asymmetric molecular shape
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
,
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
Notes:
Abstract Lithium salts of di-n-pentyl (DPP),n-butyl(n-hexyl) (BHP),n-propyl(n-hexyl) (PHP) and ethyl(n-octyl) (EOP) phosphates were synthesized and the phase diagrams of the lithium phosphate-water binary systems were determined. The phase diagrams of the DPP-, BHP- and PHP-water systems contain three regions (I, II and III) in common, which correspond to a homogeneous transparent one-phase solution, and lyotropic liquid crystalline and coagel phases, respectively. However, the EOP-H2O system contains an additional hard gel phase (region IV). 31P NMR spectra suggest that region I is a monomer⇔micelle equilibrium phase and region II is a lamellar phase. X-ray diffraction results show that for the DPP-, BHP-and PHP-water systems the twon-alkyl chains are closely packed in the lamellar phase in a manner which alternatively combines short and long chains, while in EOP-water system the two long chains are loosely packed. Furthermore, it may be assumed from31P NMR spectra and x-ray diffraction results that region IV in the EOP-water system is a cubic phase. Thermotropic properties for these DAP-water systems were also investigated by DSC temperature profile curves. From the ΔH variation upon the II→I thermal transition, we assumed that stability of the aggregate structure in the liquid crystalline state increases in the order EOP〈PHP〈BHP〈DPP. Thus, we have found that thermotropic properties for a series of DAP-water binary system are closely correlated with the extent of asymmetric molecular shape in DAP.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00653064
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