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Conductance study of the complexation of substituted and lariat 16-crown-5 derivatives with alkali metal ions in nonaqueous solvents (1992)

Takeda, Yasuyuki ; Fujimaki, Itsumi ; Ochiai, Shinichi ; [et al.]

Springer

Journal of inclusion phenomena and macrocyclic chemistry 13 (1992), S. 129-138

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ISSN: 1573-1111

Keywords: Solvent and lariat effect ; 16-crown-5 derivatives ; alkali metal ions ; complex stability ; conductometry

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Formation constants (K ML) of 1:1 complexes of 15-(2,5-dioxahexyl)-15-methyl-16-crown-5 (L16C5) and 15,15-dimethyl-16-crown-5 (DM16C5) with alkali metal ions were determined in acetonitrile (AN) and propylene carbonate (PC) by conductometry at 25°C. Except for the case of Li+-and K+-16C5 complexes in PC, the selectivity sequences of L16C5 and DM16C5 are identical with those of the parent crown ether 16-crown-5 (16C5) regardless of the solvent (AN, PC, methanol) (Na1 〉 Li+ 〉 K+ 〉 Rb+ 〉 Cs+), which show the size-fit correlation. The selectivities of L16C5 and DM16C5 for the alkali metal ions are governed not by the sidearms but by the cavity size. The stability of the crown ether complex is dependent not on the dielectric constant but largely on the donor number of the solvent. TheK ML(M1 +)/K ML(M2 +) ratio of L16C5 or 16C5 varies very much with the solvent in the cases of M1=Na, M2=K and M1=Na, M2=Li, but that of DM16C5 is almost constant regardless of the solvent.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01053636

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Unsteady thermal stress analysis in three-dimensional problems by means of boundary-element method (1990)

Ochiai, Y. ; Ishida, R.

New York, NY [u.a.] : Wiley-Blackwell

Communications in Applied Numerical Methods 6 (1990), S. 535-542

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ISSN: 0748-8025

Keywords: Engineering ; Engineering General

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Mathematics , Technology

Notes: The boundary integral formulation for unsteady thermal stresses in three-dimensional quasi-static problems is proposed. It is shown that three-dimensional unsteady thermal stress problems can be solved easily without the volume integral by means of the thermoelastic displacement potential and the boundary-element method. It is also shown that the time integral can be easily carried out analytically. In order to investigate the accuracy of this method, unsteady thermal stress distributions for a cube are obtained.

Additional Material: 3 Ill.