2163-00-0Relevant academic research and scientific papers
Preparation method of dichloroalkane
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Paragraph 0018; 0022-0025, (2021/02/10)
The invention discloses a preparation method of dichloroalkane, which comprises the following steps: mixing diol, a catalyst and a solvent, stirring and heating the components, introducing HCl gas into the mixture, and carrying out reflux reaction for 3-5 hours; and after the reaction is finished, treating the reaction solution to obtain dichloroalkane. According to the preparation method providedby the invention, the catalyst ammonium chloride is added, so that the reaction speed is obviously increased, and side reactions are reduced. In the invention, a large amount of solvent water is added in the reaction process, so that on one hand, the formation of monochloro ether by-products can be effectively inhibited, a water phase can be directly and repeatedly used, and basically no sewage is discharged; besides, by using the oil-water separator, the dichloroalkane product can be effectively separated, the product purity is high, and the yield is high.
Thiourea-Mediated Halogenation of Alcohols
Mohite, Amar R.,Phatake, Ravindra S.,Dubey, Pooja,Agbaria, Mohamed,Shames, Alexander I.,Lemcoff, N. Gabriel,Reany, Ofer
supporting information, p. 12901 - 12911 (2020/11/26)
The halogenation of alcohols under mild conditions expedited by the presence of substoichiometric amounts of thiourea additives is presented. The amount of thiourea added dictates the pathway of the reaction, which may diverge from the desired halogenation reaction toward oxidation of the alcohol, in the absence of thiourea, or toward starting material recovery when excess thiourea is used. Both bromination and chlorination were highly efficient for primary, secondary, tertiary, and benzyl alcohols and tolerate a broad range of functional groups. Detailed electron paramagnetic resonance (EPR) studies, isotopic labeling, and other control experiments suggest a radical-based mechanism. The fact that the reaction is carried out at ambient conditions, uses ubiquitous and inexpensive reagents, boasts a wide scope, and can be made highly atom economic, makes this new methodology a very appealing option for this archetypical organic reaction.
Synthesis of new N-glycosides based on Valproic acid analogs tetrazole derivatives
Noroozi Pesyan, Nader,Ebrahimi, Marziyeh
, p. 1059 - 1067 (2017/03/11)
New N-glycosides based on valproic acid analogs tetrazole derivatives were synthesized. The bis-tetrazole derived from 1,6-hexandiol was also connected to acetylated glucose and formed bis-N-glycoside. Structures characterizations have been performed using FT IR, 1H and 13C NMR spectroscopy.
Aromatic cation activation: Nucleophilic substitution of alcohols and carboxylic acids
Nguyen, Thanh V.,Bekensir, Alp
supporting information, p. 1720 - 1723 (2014/04/17)
A new method for the nucleophilic substitution of alcohols and carboxylic acids using aromatic tropylium cation activation has been developed. This article reports the use of chloro tropylium chloride for the rapid generation of alkyl halides and acyl chlorides under very mild reaction conditions. It demonstrates, for the first time, the synthetic potential of tropylium cations in promoting chemical transformations.
Method for Chlorinating Alcohols
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Page/Page column 5-6, (2008/12/07)
A process for preparing organic chlorides in which the chlorine atom is bonded to a CH2 group by reacting the corresponding alcohols with thionyl chloride in the presence of a triaylphosphine oxide at a temperature of from 20 to 200° C. and a pressure of from 0.01 to 10 MPa abs, which comprises using the triarylphosphine oxide in a molar ratio to the amount of OH groups to be chlorinated of from 0.0001 to 0.5.
Method for producing haloalkanes from alcohols
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, (2008/06/13)
The invention relates to a process for preparing haloalkanes by reaction of alcohol with hydrogen halide, wherein the reaction of the alcohol with the hydrogen halide occurs in the presence of an ionic liquid at a temperature which is above 100° C. for at least part of the time and, at least at the time of the commencement of the reaction, the water content is not more than 25 mol % based on the amount of liquid, where the ionic liquid is not octyltrimethylammonium chloride.
METHOD FOR PRODUCING HALOALKANES FROM ALCOHOLS
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Page/Page column 22; 23, (2008/06/13)
The invention relates to a method for producing haloalkanes by reacting alcohol with halogen hydracide. The inventive method is characterized in that the reaction of the alcohol with the halogen hydracide is carried out in the presence of an ionic liquid at least temporally at a temperature of more than 100 °C and that the water content, at least at the time when the reaction starts, is not more than 25 mol % based on the amount of ionic liquid, said liquid not being octyltrimethyl ammonium chloride.
Solid-state chlorodecarboxylation of mono- and dicarboxylic acids with the Pb(OAc)4-MCl system
Nikishin,Sokova,Chizhov,Makhaev,Kapustina
, p. 2200 - 2204 (2007/10/03)
Solid state reactions of acids RCOOH (R = n-C7H15, BuC(Et)H, n-C9H19, PhCH2, PhCH 2CH2, H2C=CH(CH2)8, or MeOOC(CH2)3) with Pb(OAc)4 combined with KCl, NaCl, CdCl2, or NH4Cl in the absence of a solvent and without mechanical activation afford chlorohydrocarbons RCl. The corresponding reactions of acids HOOC(CH2)nCOOH (n = 3-6) give dichloroalkanes Cl(CH2)nCl and γ-butyrolactone (n = 3).
Solid-phase reactions of alkanedicarboxylic acids with the Pb(OAc) 4-NH4Cl system
Nikishin, Gennady I.,Sokova, Lyubov L.,Makhaev, Viktor D.,Kapustina, Nadezhda I.
, p. 264 - 265 (2007/10/03)
The title reactions of HOOC(CH2)nCOOH acids afford α,ω-dichloroalkanes (n = 3, 4, 6) and lactones (n = 3, 4) as the main products.
Should anionised benzylic sulfones be considered as carbenoids?
Jolivet,Uguen
, p. 7907 - 7911 (2007/10/03)
Na·Hg reduction of benzyl sulfones 1c-e in aprotic solvent conditions affords stilbenes 4c-e, an olefination process best explained by assuming that the corresponding sulfone carbanion, which was formed under these conditions, is decomposed into a carbene species.
