Gannon, J. E.; Adams, M. C.; Bennett, E. O. published an article in 1978, the title of the article was Microbial degradation of diethanolamine and related compounds.Application In Synthesis of 2,2′-(tert-Butylazanediyl)diethanol And the article contains the following content:
Thirteen diethanolamine compounds were tested for their biodegradability employing (1) a bacterium selectively isolated from an industrial cutting fluid, and (2) an acclimatized sewage population obtained from a domestic waste treatment plant. Pure culture growth and BOD studies with the isolate showed that only diethanolamine [111-42-2], methyldiethanolamine [105-59-9], triethanolamine [102-71-6] and lauryl sulfate diethanolamine [72430-24-1] were degradable. BOD techniques using the acclimatized sewage microorganisms as seed yielded similar results with only diethanolamine, methyldiethanolamine, triethanolamine, and lauryl sulfate diethanolamine being oxidized to any meaningful extent. Cyclohexyldiethanolamine [4500-29-2], phenyldiethanolamine [120-07-0], and m-tolyldiethanolamine [91-99-6] had O demands of <1% of their theor. calculated values, while ethyldiethanolamine [139-87-7] and benzyldiethanolamine [101-32-6] accounted for 3.6 and 2.3% of their theor. values, resp. In both systems employed substitution of the tertiary H of the amine group with iso-Pr, 3-aminopropyl, Bu, or tert-Bu resulted in biol. recalcitrant compounds The experimental process involved the reaction of 2,2'-(tert-Butylazanediyl)diethanol(cas: 2160-93-2).Application In Synthesis of 2,2′-(tert-Butylazanediyl)diethanol
The Article related to microorganism diethanolamine derivative degradation, triethanolamine degradation microorganism, Toxicology: Chemicals (Household, Industrial, General) and other aspects.Application In Synthesis of 2,2′-(tert-Butylazanediyl)diethanol
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