Chemo-enzymatic cascade processes are invaluable due to their ability to rapidly construct high-value products from available feedstock chemicals in a one-pot relay manner. In an article, author is Ji, Yichen, once mentioned the application of 585-88-6, Name is Maltitol, molecular formula is C12H24O11, molecular weight is 344.3124, MDL number is MFCD00006600, category is Tetrahydropyrans. Now introduce a scientific discovery about this category, Category: Tetrahydropyrans.
Dehydra-decyclization of tetrahydrofurans to diene monomers over metal oxides
The dehydra-decyclization of tetrahydrofuran (THF) to butadiene was investigated over a series of metal oxide catalysts, where a common set of chemical pathways was identified. Alongside butadiene, propene is formedviaa retro-Prins condensation as the main side product typically observed. Reaction occurred at similar temperatures on each of the oxides, but tetragonal zirconia (t-ZrO2) and monoclinic zirconia (m-ZrO2) were unique in showing high selectivity to butadiene (>90%). Near quantitative yields to butadiene could be achieved over t-ZrO(2)at 673 K and a WHSV of 0.93 g THF gcat(-1)h(-1). Through contact time studies, butadiene is determined to be a primary product. Methyl-substituted THF gave only moderate increases in rates and the products showed minimal isomerization of the carbon backbone. The t-ZrO(2)catalyst was found to be relatively stable with time on stream, experiencing coking as a likely source of deactivation. Complete regeneration of the catalyst was demonstrated through calcination alone, allowing for multiple regenerations with no irreversible loss in activity or selectivity. The catalytic activity of zirconia was found to be structure insensitive, with t-ZrO(2)and m-ZrO(2)exhibiting similar initial activities; however, m-ZrO(2)was observed to deactivate much more rapidly.
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Reference:
Tetrahydropyran – Wikipedia,
,Tetrahydropyran – an overview | ScienceDirect Topics