96-23-1Relevant articles and documents
Unconventional reactivity of epichlorohydrin in the presence of triphenylphosphine: isolation of ((1,4-dioxane-2,5-diyl)-bis-(methylene))-bis-(triphenylphosphonium) chloride
Mannu, Alberto,Di Pietro, Maria Enrica,Priola, Emanuele,Baldino, Salvatore,Sacchetti, Alessandro,Mele, Andrea
, p. 1663 - 1674 (2021)
The selective formation of the heterocyclic salt ((1,4-dioxane-2,5-diyl)-bis-(methylene))-bis-(triphenylphosphonium) chloride was observed when epichlorohydrin and triphenylphosphine were reacted in CH2Cl2 at room temperature. Slow evaporation from a mixture of ethanol and ethyl acetate allows to isolate monocrystals of the heterocyclic phosphonium salt. Mechanistic investigations point to the formation of the zwitterionic intermediate 1-chloro-3-(triphenylphosphonio)-propan-2-olate, which can dimerize and generate the 1,4-dioxane derivative. In the exclusive presence of a Br?nsted acid as HCl, which usually facilitates epoxide ring opening, the exclusive formation of 1,3-dichloro-2-propanol was although observed. Also, when epichlorohydrin, PPh3, and a stoichiometric amount of HCl were mixed, (2-chloro-3-hydroxypropyl)-triphenylphosphonium chloride was formed and its isolation in pure form provides monocrystals subjectable to X-ray analysis.
A method for efficient preparation of epichlorohydrin by biomass glycerol
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Paragraph 0038-0039; 0049-0050; 0060-0061; 0073, (2022/01/10)
The present invention discloses a method for efficiently preparing epichlorohydrin by biomass glycerol, comprising the following steps: 1) the mass ratio of 1: 0.06 ~ 0.08 of biomass glycerol and a composite catalyst poured into the reactor, and then using an ultrasonic probe to extend into the reactor, 2) step 1) after the end of the reaction, the resulting material is cooled to room temperature and transferred to the reaction vessel, maintaining a temperature of 15 ~ 30 ° C, and then adding an alkaline cyclizer for the reaction; 3) after the completion of the reaction to filter the resulting solids, The filtrate is a solution of epichlorohydrin oxide; the glycerol of the present invention can be completely converted, the intermediate product dichloropropanol yield is high, and the selectivity of collecting 1,3-dichloropropanol is improved, which accelerates the reaction rate; and the process can be co-produced with biodiesel and chlor-alkali industry, and the industrialization prospect is good.
Expeditious Syntheses to Pharmochemicals 1,3-Dihydroxyacetone, 1,3-Dichloro-, 1,3-Dibromo- And 1,3-Diiodoacetone from Glycerol 1,3-Dichlorohydrin Using Homogenous and Heterogenous Medium
Pereira, Vera Lúcia P.,da Silva, Fernanda Priscila N. R.,da Silva, Sara R. B.,dos Santos, Priscila F.
, p. 1725 - 1731 (2020/10/09)
New efficient and reproductive routes to production of 1,3-dihydroxyacetone (1), 1,3-dichloroacetone (6), 1,3-dibromoacetone (7) and 1,3-diiodoacetone (8) from glycerol 1,3-dichlorohydrin (3) were developed. The synthesis of 1 was processed in three steps from glycerol 2 (1,3-selective chlorination of 2 to 3, oxidation of 3 to 6 and subsequent di-hydroxylation) in 51% overall yield. On the other hand, 7 and 8 were produced from 3, via a trans-bromination and trans-iodination, respectively, followed by oxidation and hydroxylation steps, in 38-52% overall yield. It was used homogeneous media with different reagents (HCl/AcOH, pyridinium chlorochromate (PCC), PCC-HIO4) and heterogeneous media with reagents supported on polymer resins such as Amberlyst A26-HCrO4– form, PV-PCC (polyvinyl-pyridinium chlorochromate) and Amberlyst A26-OH– form or reagents supported on alumina such as KI/Al2O3, KBr/Al2O3, in solvent free conditions.