Masanobu Yoshinaga scite author profile

The product esters 1 (0.58 g) in ethanol (2.0 mL) were hydrolyzed by boiling for 2 h with 0.208 g (3.5 mmol) of KOH in 2 mL of ethanol and 0.5 mL of water. The mixture was cooled, diluted with water (10 mL), neutralized with ca. 8 N acetic acid, and extracted with CH2C12. The organic layer was washed several times with water, dried, and evaporated to give 0.47 g of the acid. Recrystallization from methanol provided 0.20 g (38% overall yield) of all-trans-retinoic acid, mp 179-180 °C (lit.M mp 179-181 °C). From the recrystallization yield, the total yield of two isomers of 1 was >50%.B. With Isolation of 3. Wittig olefination conditions were similar to the previous experiment. From 1.52 g (1.67 mequiv) of 3 in THF (15.0 mL), 0.22 g (1.00 mmol) of 5, and 1 mL (1.67 mequiv) of NaOEt was obtained 0.18 g (55%) of crude 1. Mass spectral analysis showed M+ at mje 328, and the fragmentation pattern agreed with that of the corresponding methyl ester.18

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Effects of α-Substituents on Ion Selectivity of Bis(12-crown-4-methyl) Malonates as Neutral Carriers for Sodium Ion-Selective Electrodes

Kimura

Yoshinaga

Funaki

et al. 1996

ANAL. SCI.

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The effects of a-substituents on sodium-ion selectivities of bis(12-crown-4-methyl) malonates, which are highly selective for sodium ions, were investigated by incorporating various substituents with high lipophilicity, bulkiness, polarity and back strain. The incorporation of geminal substituents such as long alkyl chains and benzyl groups into the a-position of the malonate was found to generally enhance the Na+ selectivity, especially against K+, of the bis(12-crown-4) derivatives. The a,a'-dibenzylmalonate derivative gave the best Na+ selectivity of all the bis(crown ether)s designed here.Keywords Bis(12-crown-4) derivatives, a-substituent effect, sodium ion selectivity, ion-selective electrode Monocyclic polyethers, so-called crown ethers, often possess only limited ion selectivities as neutral carriers for ion-selective electrodes. Bis(crown ether) derivatives, a class of macrobicyclic polyethers, are able to bind certain metal ions that are a little larger than their crown cavity powerfully by cooperative action of their two adjacent crown rings on cation complexation.l It was found by our group in 1979 that bis(15-crown-5) derivatives, when applied as neutral carriers for K+-selective electrodes, show prominent ion selectivities.2 Since then, extensive research has been done concerning neutral carrier-type ion-selective electrodes based on bis(crown ether) derivatives.3Malonate ester-type Bis(12-crown-4) derivatives, bis-(12-crown-4-methyl) malonates like 1-3 are much more selective for Na+ than the corresponding monocyclic crown ethers due to the above-mentioned bis(crown ether) effect.4 Specifically, Bis(12-crown-4-methyl) 2-dodecyl-2-methylmalonate 1, which is now commercially available, is an excellent neutral carrier for plasticized poly(vinyl chloride) (PVC) membrane Nat-selective electrodes of practical use. The study has suggested that the existence of the a-substituents on malonate derivatives is quite important for high Na+ selectivity of the malonate ester-type Bis(12-crown-4)s. This prompted us to modify the a-substituents of the Bis (12-crown-4) and to compare Na+ selectivities of the resulting bis(12-crown-4) derivatives as the neutral carriers. This paper is concerned with the design of Bis(12-crown-4-methyl) malonates carrying various a-substituents, 4 -15, and comparisons of their Na+ selectivities as neutral carriers for ion-selective electrodes. ExperimentalSyntheses of Bis(12-crown-4) derivatives Malonic diethyl esters with two identical a-substituents were prepared by the reaction of diethyl malonate with two equimolar amounts of an alkyl bromide in the presence of sodium ethoxide. Similarly, the diethyl esters with two different a-substituents were obtained by the reaction of diethyl malonate successively with one equimolar amount of two different alkyl bromides. Diethyl benzalmalonate was prepared by the treatment of diethyl malonate with benzaldehyde in benzene in the presence of piperidine and was then hydrolyzed to its corresponding diacid with sodium hydroxide in ethanol. Th...

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Synthesis of poly(vinyl alcohol)‐based poly(crown ether)s and permeability of their polymeric membranes

Kimura

Yoshinaga

Kitazawa

et al. 1983

J. Polym. Sci. Polym. Chem. Ed.

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Polymers that contain crown ether moieties at the side chain and are capable of forming rather tough film were synthesized by the polymer reaction of poly(vinyl alcohol) with formyl derivatives of aliphatic crown ethers such as 12‐crown‐4, 15‐crown‐5, and 18‐crown‐6. In the passive transport of alkali metal picrates across the poly(crown ether) membranes the permeation, particularly of alkali metals which tend to form intramolecular sandwich‐type complexes with the crown ether rings, was retarded, compared with a poly(vinyl alcohol) membrane. The cation selectivities in the permeation of poly(crown ether) membranes differed significantly from those of poly(vinyl alcohol).

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