Diethylene glycol diacetate - CAS 628-68-2

The approximative lethal dose of triacetin and diethylene glycole acetate is determined after the method of Deihmann and Leblanc. Experiments are conducted on white rats to establish the acute and subacute oral, dermal and inhalatory toxicity of the two substances. Changes in weight, liver and kidneys weight coefficient, hematopoiesis and hepatic function (biochemical and pathomorphological), as well as the stimulating effect on mucosa and skin are studied. The results of the study show a weak stimulating action on mucosa and skin, and insignificant cumulation. Emphasis is laid on the functional character of changes in the values of some enzymes -- alkaline phosphatase, cytochrome oxidase, cholinesterase -- and of the pathomorphologically established parenchymatous dystrophy. Presumably, it is a matter of changes more strongly manifested in imported triacetin. The conclusion is reached that imported triacetin may be substituted for lokally produced diethylene glycoldiacetate which proves to be with a lower acute and subacute toxicity.

Past studies on the toxicological effects of ethylene glycol alkyl ethers as well as the recent data on these chemicals in Japan are reviewed. Only a few researchers have participated in the study of ethylene glycol alkyl ethers in Japan. The effects of ethylene glycol alkyl ethers on testis and embryotoxic effects of ethylene glycol monomethyl ether (EGM) have been studied, as has the teratogenicity of ethylene glycol dimethyl ether (EGdM). Studies on ethylene glycol alkyl ethers and related compounds administered to mice by oral gavage revealed the occurrence of testicular atrophy and decreased white blood cell count by EGM, EGdM, ethylene glycol monomethyl ether acetate, ethylene glycol monoethyl ether and ethylene glycol monoethyl ether acetate, and the toxicity was related to their chemical structure. On the other hand, ethylene glycol, ethylene glycol monopropyl ether, ethylene glycol monobutyl ether, ethylene glycol monophenyl ether, ethylene glycol monoacetate or ethylene glycol diacetate showed no such an effect. Studies on EGM using hamsters or guinea pigs revealed the occurrence of testicular atrophy similar to that observed in mice. In regard to the methyl ethers of other glycols, there is no convincing evidence that propylene glycol monomethyl ether, diethylene glycol monomethyl ether or diethylene glycol dimethyl ether causes testicular atrophy in mice. Teratological studies of EGM and EGdM revealed embryotoxic effects in mice.

Rechargeable batteries based on an abundant metal such as aluminum with a three-electron transfer per atom are promising for large-scale electrochemical energy storage. Aluminum can be handled in air, thus offering superior safety, easy fabrication, and low cost. However, the development of Al-ion batteries has been challenging due to the difficulties in identifying suitable cathode materials. This study presents the use of a highly open framework Mo2.5 + y VO9 + z as a cathode for Al-ion batteries. The open-tunnel oxide allows a facile diffusion of the guest species and provides sufficient redox centers to help redistribute the charge within the local host lattice during the multivalent-ion insertion, thus leading to good rate capability with a specific capacity among the highest reported in the literature for Al-based batteries. This study also presents the use of Mo2.5 + y VO9 + z as a model host to develop a novel ultrafast technique for chemical insertion of Al ions into host structures. The microwave-assisted method employing diethylene glycol and aluminum diacetate (Al(OH)(C2 H3 O2 )2 ) can be performed in air in as little as 30 min, which is far superior to the traditional chemical insertion techniques involving moisture-sensitive organometallic reagents. The Al-inserted Al x Mo2.5 + y VO9 + z obtained by the microwave-assisted chemical insertion can be used in Al-based rechargeable batteries.