摘要:
The invention relates to the use of a combination of - at least one ionic liquid which is lipophilic, and non miscible with water, and - at least one enzyme, for the implementation of an esterifϊcation and/or transesterification process of a substrate with at least one alcohol, said substrate consisting of oils, fats, fatty acids, or a mixture thereof, wherein said ionic liquid, said substrate, and said alcohol form a single homogeneous liquid phase at the temperature at which the esterifϊcation and/or transesterification process is performed.
摘要:
The invention relates to the use of a onium salt functionalized by at least one organic function, as a soluble support, in the presence of at least one organic solvent, for organic synthesis of a molecule, in a homogenous phase, by at least one transformation of said organic function. The onium salt enables the synthesized molecule to be released. The onium salt is present in liquid or solid form at room temperature and corresponds to formula Al+, X1-, wherein A1+ represents a cation and X1- représents an anion.
摘要:
The invention relates to the use of an ionic liquid as a matrix liquid for organic synthesis in a homogeneous phase on a soluble medium, said ionic liquid being present in the form of a liquid or solid at room temperature, having formula A1+X1-, A1+ representing a functional or non-functional cation or a mixture of cations wherein none of said cations are functional or at least one of the cations is functional, and X1- a functional or non-functional anion or a mixture of anions wherein none of the anions are functional or at least one of the anions is functional.
摘要:
The invention relates to the use of a onium salt functionalized by at least one organic function, as a soluble support, in the presence of at least one organic solvent, for organic synthesis of a molecule, in a homogenous phase, by at least one transformation of said organic function. The onium salt enables the synthesized molecule to be released. The onium salt is present in liquid or solid form at room temperature and corresponds to formula Al+, X1-, wherein A1+ represents a cation and X1- représents an anion.
摘要:
The invention concerns (aryl) (amino) borane compounds and a method for preparing same. Said compounds are of formula A-BH-NR1R2, wherein: R1 and R2 are selected among linear, branched or cyclic alkyl radicals, and arlyalkyl radicals, or R1 and R2 form together an alkylene; and A represents an aromatic or heteroaromatic group optionally polycondensed, or a group selected among the vinyl, dienyl, polyenyl and alkynyl groups, all said groups optionally bearing at least one substituent. The compounds are obtained by a method which consists in preparing an amine-borane R1R2NH.BH3 complex, in transforming it into aminoborane R1R2NBH2 by heating, then in reacting it with an A-X compound wherein X is a leaving group.
摘要:
The present invention relates to a new process for the preparation of an arylborane compound, by arylation of a B-H bond, which comprises a step (1) of contacting an arenediazonium salt or a heteroarenediazonium salt with an organoboron compound containing at least one B-H bond, in a reaction medium containing a solvent, in the absence of base, in the absence or in the presence of an activating agent, for the preparation of an arylborane compound, and a possible step (2) of recovery and purification of said arylborane compound obtained at the step (1), said arylborane being in particular an aminoarylborane, and a possible step (3) of refunctionalisation of said arylborane obtained at step (1) or (2) for the preparation of aryl boronic derivatives or arylborates.
摘要:
The invention relates to a drop microreactor, i.e. a microreactor comprised of a drop of a particular liquid, whereby this microreactor does not walls, and the interface of the particular liquid with the ambient medium and with the support onto which the drop is deposited define the boundaries of the microreactor. The microreactor is characterized in that it is comprised of a drop containing at least one ionic liquid. The invention also relates to methods for carrying out chemical or biochemical reactions and/or a mixture of the two while using said microreactor as well as to a lab-on-chip comprising a microreactor of the aforementioned type.