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287 results about "Diels–Alder reaction" patented technology
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In organic chemistry, the Diels–Alder reaction is a chemical reaction between a conjugated diene and a substituted alkene, commonly termed the dienophile (also spelled dieneophile), to form a substituted cyclohexene derivative. It is the prototypical example of a pericyclic reaction with a concerted mechanism. More specifically, it is classified as a thermally-allowed [4+2] cycloaddition with Woodward–Hoffmann symbol [π4ₛ + π2ₛ]. It was first described by Otto Diels and Kurt Alder in 1928. For the discovery of this reaction, they were awarded the Nobel Prize in Chemistry in 1950. Through the simultaneous construction of two new carbon–carbon bonds, the Diels–Alder reaction provides a reliable way to form six-membered rings with good control over the regio- and stereochemical outcomes. Consequently, it has served as a powerful and widely applied tool for the introduction of chemical complexity in the synthesis of natural products and new materials. The underlying concept has also been applied to π-systems involving heteroatoms, such as carbonyls and imines, which furnish the corresponding heterocycles; this variant is known as the hetero-Diels–Alder reaction. The reaction has also been generalized to other ring sizes, although none of these generalizations have matched the formation of six-membered rings in terms of scope or versatility. Because of the negative values of ΔH° and ΔS° for a typical Diels–Alder reaction, the microscopic reverse of a Diels–Alder reactions becomes favorable at high temperatures, although this is of synthetic importance for only a limited range of Diels-Alder adducts, generally with some special structural features; this reverse reaction is known as the retro-Diels–Alder reaction.
Additive for oil-based drilling fluids
InactiveUS7008907B2High level of filtration controlReduces and eliminates needTransportation and packagingFluid removalFiltrationPolyamide
A method and product is disclosed which provides emulsion stability and filtration control to invert emulsion drilling fluids. The product comprises a blend of a carboxylic acid terminated polyamide and / or a wetting agent with a reaction product or mixture produced by the Diels-Alder reaction of dienophiles, preferably carboxylic acids, polycarboxylic acids, acid anhydrides, or combinations or mixes thereof, with a mixture of fatty acids and resin acids. The product of the invention is extremely effective, decreasing by about two-thirds the amount of emulsifier generally required to formulate an effective drilling fluid. The product of the invention also greatly reduces and in many cases eliminates the need for conventional fluid loss additives, and additionally provides electrical stability. Moreover, the product of the invention has a pour point as low as about 20 degrees Fahrenheit with minimal solvents, thereby eliminating the need to ship large amounts of inert material for use, and may be transported in a highly active state.
Owner:HALLIBURTON ENERGY SERVICES INC
Polymer powder for producing three-dimensional objects
InactiveUS20140121327A1Improve stabilityLow viscosityAdditive manufacturing apparatusAdditive manufacturing with solidsPowder mixtureMetallurgy
The invention relates to the use of a powder made of a polymer, which of two or more components with functionalities suitable for Diels-Alder reactions, or of a powder mixture (dry blend) made of powders respectively of at least one of the reactive components, where these together enter into the Diels-Alder reaction with one another and are capable of a retro-Diels-Alder reaction, in a rapid-prototyping process.
The invention further relates to moldings produced with use of said polymer powder through a layer-by-layer shaping process in which regions of a powder layer are melted selectively. The molding here can be removed from the powder bed after cooling and hardening of the regions previously melted layer-by-layer.
Owner:EVONIK OPERATIONS GMBH
Esterified Fatty Acids for Pvc Plasticization
InactiveUS20080200595A1Improve compatibilityAvoid problemsChloroprene adhesivesPlasticizerOleic Acid Triglyceride
At least one esterified fatty acid, particularly a fatty acid from tall oil that undergoes a Diels-Alder reaction or a fatty acid from oleic sunflower oil that undergoes an epoxydation reaction, is used as a PVC plasticizer, particularly for floor coverings.
Owner:GERFLOR
High-dispersion fluorine-containing nanosphere and epoxy resin super-amphiphobic surface
InactiveCN102604467AImprove hydrophobicity and oleophobicityReduce usagePigment treatment with macromolecular organic compoundsEpoxy resin coatingsEpoxyMicrosphere
The invention discloses a high-dispersion fluorine-containing nanosphere and an epoxy resin super-amphiphobic surface. The high-dispersion fluorine-containing nanosphere is obtained by grafting a fluorine-containing polymer with an end group of a compound D on the surface of the nanosphere and connecting a high-dispersion polymer with an end group of a compound A with the fluorine-containing polymer through a Diels-Alder reaction. The super-amphiphobic surface is prepared by the following steps that: the high-dispersion fluorine-containing nanosphere is dispersed in a low-boiling solvent, and then a liquid epoxy resin and an epoxy resin curing agent are added to obtain an epoxy resin coating with a super-amphiphobic effect; and then the epoxy resin coating is sprayed on a base material, and then is dried to obtain the super-amphiphobic surface. The poxy resin super-amphiphobic surface provided by the invention has excellent hydrophobic and oleophobic properties, the hydrophobic and oleophobic contact angle is greater than 150 degrees, and the rolling angle is less than 5 degrees. In the process of preparing the super-amphiphobic surface, a toxic fluorine-containing solvent is avoided being used, and the super-amphiphobic surface can be built on the surfaces of most materials by utilizing the excellent adhesive property of the epoxy resin coating.
Owner:GUANGZHOU CHEM CO LTD CHINESE ACADEMY OF SCI
Functionalized adhesive medical gel
A bioadherent substrate includes a medical gel or medical gel precursor having a plurality of reactive members of a specific binding pair attached on or adapted to be attached to a surface of the medical gel, said reactive members being capable of forming covalent bonds with a plurality of complementary reactive members of the specific binding pair via a reaction selected from a Huisgen cycloaddition reaction, a Diels-Alder reaction and a thiol-ene reaction. A method for adhering a medical gel to biological tissue includes providing a medical gel or a medical gel precursor having a plurality of reactive members of a specific binding pair attached on or adapted to be attached to a surface of the medical gel and providing tissue with a plurality of complementary reactive members of the specific binding pair, wherein upon contact of the reactive members on the medical gel with the complimentary reactive members on the tissue, covalent bonds are formed between the reactive members and the complementary reactive members, thus adhering the medical gel to the tissue.
Owner:SOFRADIM PROD SAS
Method for thermally reversibly crosslinking styrenic thermoplastic elastomer material
The invention discloses a method for thermally reversibly crosslinking a styrenic thermoplastic elastomer material. The method for thermally reversibly crosslinking the styrenic thermoplastic elastomer material comprises the following steps: firstly under the condition of ultraviolet light illumination, grafting sulfhydryl furan to a soft segment section of the styrenic thermoplastic elastomer SBC (TPE-S) by utilizing sulfhydryl-alkene click reaction, then adding a maleimide compound containing at least two maleimide groups, and carrying out reversible chemical crosslinking based on Diels-Alder reaction under the heating condition, so that the aim of reversibly crosslinking and modifying polystyrene-butadiene-styrene is achieved. The styrenic thermoplastic elastomer modifying method disclosed by the invention is simple, raw materials are available, and cost is low; and the styrenic thermoplastic elastomer modified by utilizing the method disclosed by the invention is improved in mechanical properties and solvent resistance and still has thermoplasticity.
Owner:SHANGHAI JIAO TONG UNIV
Method for preparing thermo-plastically reprocessed cross-linked halogenated butyl rubber
The invention relates to a method for preparing a thermo-plastically reprocessed cross-linked halogenated butyl rubber. A rubber is cross-linked by blending a polymer containing a pyridine side group or dicyclopentadiene formate thermally-reversible cross-linking agent and a halogenated butyl rubber and performing quaternization or esterification on the mixture under a thermo-compression condition. The cross-linked rubber sample is subjected to reverse quaternization or reverse Diels-Alder reaction of dicyclopentadiene cross-linking bridge bonds under the thermo-compression condition at a high temperature to perform decrosslinking, so the cross-linked rubber has thermoplastic processability. The rubber sample cross-linked by the thermally-reversible cross-linking agent has the performance of a vulcanized rubber and thermoplastic processability, so that rubber scraps and waste or old rubber products are conveniently reprocessed and utilized.
Owner:BEIJING UNIV OF CHEM TECH +1
Remendable interfaces for polymer composites
Functionalized polymer matrix and/or reinforcement materials that are capable of a thermoreversible Diels-Alder reaction are useful for making composite materials. Also disclosed is a composite material which includes one or both of functionalized reinforcement materials and functionalized polymer matrix materials, as well as a method for repairing a composite material including the step of thermally treating the composite material at a temperature sufficient to react a functionality on one of the reinforcement material and the polymer matrix material with another functionality via a Diels-Alder reaction. A method of making a composite material including functionalizing one or both of a reinforcing material and a polymer matrix material with a first reactive group, providing a second reactive group capable of undergoing a Diels-Alder reaction with the first reactive group and reacting the first and second reactive groups to form a composite material, is also described.
Owner:DREXEL UNIV +2
Rosin epoxy resin and preparation method thereof
InactiveCN102329309AGood weather resistanceEasy to makeOrganic chemistryPowdery paintsEpoxyPolyester
The invention discloses a rosin epoxy resin for the solidification of polyester powdery paints. The rosin epoxy resin is a compound with the structure of formula I or formula II. In the formula I or the formula II, R is an aliphatic chain segment or an aromatic chain segment. The invention also discloses a preparation method of the rosin epoxy resin. The preparation method comprises the following steps: 1, treating rosin as a raw material, adding with a catalyst I and maleic anhydride, and carrying out a Diels-Alder reaction to obtain maleopimaric acid anhydride (MPA); 2, reacting a compound containing amino and carboxyl with the MPA to prepare a rosin polyprotic acid; and 3, carrying out a series of chemical reactions on the rosin polyprotic acid, an epoxy alkylogen, a catalyst II, and an alkali to prepare the rosin epoxy resin. The rosin epoxy resin of the invention which has the advantages of environmentally friendly preparation technology, and low manufacture cost is mainly used for solidifying the polyester powdery paints.
Owner:NINGBO INST OF MATERIALS TECH & ENG CHINESE ACADEMY OF SCI
Chirality pyridine double-oxazoline catalyzer and method for preparing the same and application thereof
InactiveCN101116828AHigh activityHigh enantioselectivityOrganic-compounds/hydrides/coordination-complexes catalystsCatalyst activation/preparationOxazolidoneLanthanide
A catalyst of chiral bis-oxazolinylpyridine is provided, which comprises two parts including a 4-z-2, 6-bis [4'(s)-R oxazoline-2'-] pyridine as the chiral ligand of the bis-oxazolinylpyridine, and a Scandate, Yttrium and Lanthanide metal salt. The preparation method is to mix the metal salt, the ligand of bis-oxazolinylpyridin with the equal molar quantity, and a 4-molecular sieve together, the mixture is added with the needed solvent, and then stirred under the temperature of -78 to 25 DEG C to obtain the catalyst prepared in situ. The usual dosage of the catalyst used for catalyzing Diels-Alder reaction is 1percent to 5percent of the dosage of the substrate. The catalyst can catalyze Diels-Alder reaction of both alpha, beta-unsaturated N-acetyl oxazolidone and alpha, beta-unsaturated ester with high efficiency in high selectivity. Under condition of the normal pressure with the temperature of 0 to 25 DEG C, the catalyst can accomplish the conversion rate as high as 100 percent and the enantiomeric selectivity of 96 percent.
Owner:DALIAN INST OF CHEM PHYSICS CHINESE ACAD OF SCI
Additive for oil-based drilling fluids
InactiveUS20050037929A1High level of filtration controlReduces and eliminates needTransportation and packagingFluid removalFiltrationPolyamide
A method and product is disclosed which provides emulsion stability and filtration control to invert emulsion drilling fluids. The product comprises a blend of a carboxylic acid terminated polyamide and/or a wetting agent with a reaction product or mixture produced by the Diels-Alder reaction of dienophiles, preferably carboxylic acids, polycarboxylic acids, acid anhydrides, or combinations or mixes thereof, with a mixture of fatty acids and resin acids. The product of the invention is extremely effective, decreasing by about two-thirds the amount of emulsifier generally required to formulate an effective drilling fluid. The product of the invention also greatly reduces and in many cases eliminates the need for conventional fluid loss additives, and additionally provides electrical stability. Moreover, the product of the invention has a pour point as low as about 20 degrees Fahrenheit with minimal solvents, thereby eliminating the need to ship large amounts of inert material for use, and may be transported in a highly active state.
Owner:HALLIBURTON ENERGY SERVICES INC
Plant oil-modified self-emulsifying ester and preparation method thereof
InactiveCN105199856AAvoid Pollution HazardsEasily biodegradableFatty acid esterificationAdditivesWater basedDouble bond
The invention discloses plant oil-modified self-emulsifying ester. The plant oil-modified self-emulsifying ester is prepared from plant oil, vinyl diacid and fatty alcohol ether. The invention also discloses a preparation method of the plant oil-modified self-emulsifying ester. The preparation method comprises Diels-Alder reaction: adding plant oil, vinyl diacid (acid anhydride) and a certain amount of a catalyst into a reactor, and heating the materials to a certain temperature for double bond rearrangement and Diels-Alder reaction lasting for some time to obtain reacted plant oil, and esterification reaction: mixing the obtained reacted plant oil and fatty alcohol ether, adding a catalyst into the mixture, and heating the mixture to a certain temperature for some time to obtain a self-emulsifying ester finished product. The plant-based modified product is renewable, is biodegradable easily and prevents environmental pollution. The product has good lubrication performances and self-emulsifying characteristics, can be easily emulsified in water, can be used as an emulsifier for replacing other types of emulsifiers, an oil-based lubricant, an antirust agent and mineral oil or reducing their use in a water-based metal processing liquid.Owner:GUANGZHOU MIQI CHEM CO LTD
Fluorine-containing nanoparticles with high dispersibility and bonding property and superamphiphobic surface
The invention discloses fluorine-containing nanoparticles with high dispersibility and bonding property and a superamphiphobic surface prepared from the nanoparticles. The fluorine-containing nanoparticles with high dispersibility and bonding property are prepared by the steps of grafting a fluorine-containing polymer with an upper terminal group to be a compound D on the surfaces of the nanoparticles, and reacting an epoxy resin polymer with a terminal group to be a compound A with the fluorine-containing polymer through a heat-breaking Diels-Alder reaction. The superamphiphobic surface disclosed by the invention is prepared by the steps of dispersing the fluorine-containing nanoparticles with high dispersibility and bonding property in a low-boiling-point fluorine-free solvent, uniformly mixing with an epoxy resin curing agent, carrying out spray coating on the surface of a substrate material, and carrying out vacuum drying. According to the fluorine-containing nanoparticles disclosed by the invention, the epoxy resin polymer with high dispersibility is introduced, as the epoxy functional group contained in the dispersing polymer can take place a curing reaction with the epoxy group by using the epoxy resin curing agent in the solvent to fix the fluorine-containing nanoparticles on the surfaces of most substrates, the bonding problem of the fluorine-containing nanoparticles on the substrate surface is solved.
Owner:中科瑞丽分离科技无锡有限公司
Complexes of carbon nanotubes and fullerenes with molecular-clips and use thereof
ActiveUS7771695B2Readily apparentPigmenting treatmentMaterial nanotechnologyCarbon nanotubeFullerene
Separation of carbon nanotubes or fullerenes according to diameter through non-covalent pi-pi interaction with molecular clips is provided. Molecular clips are prepared by Diels-Alder reaction of polyacenes with a variety of dienophiles. The pi-pi complexes of carbon nanotrubes with molecular clips are also used for selective placement of carbon nanotubes and fullerenes on substrates.
Owner:GLOBALFOUNDRIES US INC
Chiral ligands, transition-metal complexes thereof and uses thereof in asymmetric reactions
InactiveUS6525210B1Carboxylic acid amides optical isomer preparationPreparation by carbon monoxide reactionIsomerizationHydrosilylation
Chiral ligands and transition metal complexes based on such chiral ligands useful in asymmetric catalysis are disclosed. The chiral ligands include phospholanes, P,N ligands, N,N ligands, biphenols, and chelating phosphines. The ferrocene-based irridium (R,R)-f-binaphane complex reduces imines to the corresponding amines with 95-99.6% enantioselectivity and reduces beta-substituted-alpha-arylenamides with 95% enantioselectivity. The transition metal complexes of the chiral ligands are useful in asymmetric reactions such as asymmetric hydrogenation of imines, asymmetric hydride transfer reactions, hydrosilylation, hydroboration, hydrovinylation, hydroformylation, allylic alkylation, cyclopropanation, Diels-Alder reaction, Heck reaction, isomerization, Aldol reaction, Michael addition and epoxidation reactions.
Owner:PENN STATE RES FOUND
Process for producing vitamin B6
ActiveCN101402600AReduce damageRapid responseOrganic chemistryMetabolism disorderAromatizationVitamin B6 synthesis
The invention belongs to the technical field of vitamin production, and relates to a method for preparing vitamin B6. The method comprises Diels-Alder reaction, aromatization reaction, hydrolysis reaction and refining steps, and is characterized in that 2-n-propyl-4, 7-dihydro-1, 3-dioxepin and 4-methyl-5-alkoxyl-oxazole are added with alkali reagent in the process of the Diels-Alder reaction, and are added with a metal ion complexing agent in the process of the aromatization reaction. The invention has the advantages that the method for preparing the vitamin B6 allows damage degree of reactant and product of raw material to be reduced in the process of the Diels-Alder reaction, and improves the performance of the Diels-Alder reaction. Addition of the metal ion complexing agent in the aromatization reaction removes metal ions in a system, thereby improving product quality.
Owner:江西天新药业股份有限公司
Novel compound L-4-terazine-phenylalanine, preparation method and application thereof
InactiveCN102627615AGood medicineHigh yieldPeptide preparation methodsOrganic additionFormamidine acetateProtein molecules
The invention discloses a novel amino acid derivative L-4-terazine-phenylalanine (3-(4-(1,2,4,5-tetrazin-3-yl) phenyl)-2-aminopropanoic acid). L-4-cyan-phenylalanine is used as an initial reactant and reacts with formamidine acetate and anhydrous hydrazine under catalysis of sulfur; then the reactants are oxidized by sodium nitrite to generate L-4-1,2,4,5-terazine-phenylalanine. The L-4-1, 2, 4, 5-terazine-phenylalanine is integrated into the biologically active peptide and protein molecules as phenylalanine / tyrosine analogue, and can be applied to on biological orthogonal field based on inverse electronic Diels-Alder reaction as a biomarker; meanwhile, the L-4-1,2,4,5-terazine-phenylalaninethe can be introduced into biologically active peptide as phenylalanine / tyrosine analogue through solid phase polypeptide synthesis method and conduct pharmacological evaluation, so as to improve drug property of certain biologically active peptide.
Owner:LANZHOU UNIVERSITY
Multi-block copolyester, preparation method of the multi-block copolyester and preparation method of compound of multi-block copolyester
ActiveCN106854274AThe content can be adjusted arbitrarilyThe synthesis steps are simpleFuranThermoplastic
The invention relates to a multi-block copolyester, a preparation method of the multi-block copolyester and a preparation method of a compound of the multi-block copolyester, especially relates to a multi-block copolyester which contains a furan ring in a molecular main chain undergoing a Diels-Alder reaction, and belongs to the technical field of polyester material preparation. The furan ring in the molecular main chain of the multi-block copolyester can undergo a Diels-Alder reaction and a reverse Diels-Alder reaction. The multi-block copolyester has excellent thermosetting resin performances and wide performance adjustability at a room temperature and has good processing molding performances of thermoplastic resin at a high temperature. The thermoplastic crosslinked polyester has a property of self-repairing micro-cracks in a wide temperature zone and can be used in fields of mulching films and packaging materials.
Owner:TSINGHUA UNIV
Norbornene monomers with an epoxy group and polymer material thereof
Norbornene monomers with epoxy groups and polymer materials thereof are disclosed. The Norbornene monomers with epoxy groups are prepared by Diels-Alder reaction. The Norbornene monomers with epoxy groups are highly active for ring-opening-metathesis polymerization (ROMP), and the molecular weight and PDI value of the obtained polymers are controllable.
Owner:NAT TAIWAN UNIV OF SCI & TECH
Method for preparing norbornene and substituted derivatives of norbornene
InactiveUS6294706B1Improve responseTime of synthesis is minimizedHydrocarbon by isomerisationOrganic compound preparationHigh concentrationNorbornene
Disclosed is a method for the preparation of norbornene and substituted norbornene compounds via a Diels-Alder reaction, in which a cyclic diene is reacted with an olefinic compound in order to prepare a norbornene compound. According to the invention a cyclic diene is gradually added to react with an olefinic compound, in order to keep the concentration of the cyclic diene in the reaction mixture as low as possible during the reaction. It is possible to obtain a very pure product, high yield, short reaction time and high concentrations of the exo diastereomer with the method of the invention.
Owner:OPTATECH CORP
Polyvinyl alcohol membrane with self-repair function implemented by aid of dynamic covalent bonds and method for preparing polyvinyl alcohol membrane
The invention belongs to the technical field of functional materials, and particularly discloses a polyvinyl alcohol membrane with a self-repair function implemented by the aid of dynamic covalent bonds and a method for preparing the polyvinyl alcohol membrane. The dynamic covalent bonds are formed by the aid of Diels-Alder reaction, so that the polyvinyl alcohol membrane can have the self-repair ability. The method includes carrying out graft reaction on polyvinyl alcohol and furan derivatives to obtain furan ring grafted and modified polyvinyl alcohol; adding certain cross-linking agents into the furan ring grafted and modified polyvinyl alcohol and carrying out Diels-Alder reaction to obtain the polyvinyl alcohol membrane with the self-repair function. Diels-Alder reaction can be carried out on the certain cross-linking agents and furan groups. The polyvinyl alcohol membrane and the method have the advantages that the polyvinyl alcohol membrane is excellent in separation performance and hydrophilic performance just like common polyvinyl alcohol membranes, and cross-linked structures of the polyvinyl alcohol membrane are excellent in temperature responsiveness and thermal reversibility; the polyvinyl alcohol membrane is excellent in self-repair ability for drawing and scratching marks under simple conditions, and the gas tightness and the water resistance of the polyvinyl alcohol membrane in wet-state environments can be obviously improved; the polyvinyl alcohol membrane prepared by the aid of the method can be used in broad fields such as the fields of permeation and evaporation membrane separation and the fields of proton exchange membrane fuel cells, catalyst carrying and ion exchange membranes.
Owner:TONGJI UNIV
Functionalized surgical adhesives
A bioadherent composition includes a first mixture containing a plurality of reactive members of a specific binding pair, said reactive members being bound to a ligand capable of binding a receptor on biological tissue, and a second mixture containing a plurality of complementary reactive members of the specific binding pair, said complementary reactive members being bound to a ligand capable of binding a receptor on biological tissue, said reactive members capable of forming covalent bonds with said complementary reactive members via a reaction selected from Huisgen cycloaddition reactions, Diels-Alder reactions, and/or thiol-alkene reactions. A method for bonding biological tissue involves utilizing the bioadherent composition.
Owner:SOFRADIM PROD SAS
Preparation method of oil/rosin base liquid calcium-zinc composite stabilizing agent used for PVC (Polyvinyl Chloride)
The invention relates to a preparation method of an oil/rosin base liquid calcium-zinc composite stabilizing agent used for PVC (Polyvinyl Chloride). The preparation method comprises the following steps of: (1) taking industrial fatty acid and rosin as raw materials, and synthesizing an oil/rosin base composite binary acid through a Diels-Alder reaction; (2) respectively and uniformly stirring any two metallic compounds of zinc oxide, calcium hydroxide and calcium oxide with the oil/rosin base composite binary acid and a solvent, then raising the temperature to 80-150 DEG C, refluxing for 0.5-4 hours, and distilling to remove the solvent under a vacuum degree of 1-2mmHg to obtain corresponding oil/rosin base composite binary acids of two metals; and (3) dissolving a proper quantity of the oil/rosin base composite binary acids of the two metals in a mixed solution of epoxidized soybean oil, an antioxidant, liquid paraffin, phosphite ester and beta-diketone, and filtering to obtain the oil/rosin base liquid calcium-zinc composite stabilizing agent. The oil/rosin base liquid calcium-zinc composite stabilizing agent prepared by the preparation method is used for the field of PVC plastic processing, and reproducible natural oil resources are adopted as main raw materials, so that the product has the characteristics of good thermal stability and basically no toxicity and belongs to an environmentally-friendly like product with a high cost performance.
Owner:INST OF CHEM IND OF FOREST PROD CHINESE ACAD OF FORESTRY
Chiral phosphines, transition metal complexes thereof and uses thereof in asymmetric reactions
InactiveUS6576772B1High enantioselectivityEnantioselectivity decreaseOrganic compound preparationOrganic-compounds/hydrides/coordination-complexes catalystsIsomerizationHydrosilylation
Chiral ligands and transition metal complexes based on such chiral ligands useful in asymmetric catalysis are disclosed. The chiral ligands include (R,S,S,R)-DIOP*. The ruthenium complex reduces enamide to the corresponding amine with up to 99% enantioselectivity. The transition metal complexes of the chiral ligands are useful in asymmetric reactions such as asymmetric hydrogenation, hydride transfer, hydrosilylation, hydroboration, hydrovinylation, hydroformylation, hydrocarboxylation, isomerization, allylic alkylation, cyclopropanation, Diels-Alder reaction, Heck reaction, isomerization, Aldol reaction, Michael addition and epoxidation reactions.
Owner:PENN STATE RES FOUND
Method for preparing rubber nanocomposite by peeling expanded graphite through in-situ reaction
ActiveCN106496712AReduce van der Waals forcesImprove mechanical propertiesAcrylonitrileMaterials science
The invention relates to a method for preparing a rubber nanocomposite by peeling expanded graphite through an in-situ reaction. In an internal mixer, hydrogenated butadiene-acrylonitrile rubber, expanded graphite and diene or dienophile undergo a Diels-Alder reaction, and strong shearing force transmitted by rubber is employed, so chemically-modified expanded graphite is peeled in situ to prepare graphene, and the graphene/rubber nanocomposite is prepared in situ. The method has the advantages of mild reaction conditions, simple process and low energy consumption; almost no organic solvent is used in reaction process, so small pollution is posed to the environment; and the prepared graphene has good electrical conductivity and thermal conductivity, and the prepared rubber nanocomposite has excellent electrical conductivity.
Owner:BEIJING UNIV OF CHEM TECH
Oil soluble thickening agent, production method and application in producing pesticide missible oil thereof
The invention relates to an oil soluble thickening agent, which is a transparent viscous liquid of which number average molecular weight is between 4, 000 and 6, 000, the viscosity is between 10, 000 and 30, 000, and the color varies form yellow to brown. The oil soluble thickening agent is prepared by the following steps: rosin and maleic anhydride have Diels-Alder reaction; the product after the reaction and polyol or polyol polyoxyethylene and polyethenoxy ether have esterification reaction; and epoxy ethane or/and propylene oxide is added into the mixture to obtain the transparent viscous liquid. A pesticide emulsifiable agent preparation prepared from the oil soluble thickening agent has the advantages of excellent emulsifiable and dispersible performance, viscous appearance, uneasy layering, and better attachment and tractility on the liquid surface during use. The invention discloses a preparation method for the oil soluble thickening agent.
Owner:JIANGSU ZHONGSHAN CHEM
Reversible polymeric gelation for oilfield applications
ActiveUS20090126932A1Low viscosityLittle and no formation damageOrganic chemistryFluid removalRetro-Diels–Alder reactionViscosity
This invention relates to the synthesis and use in oilfield applications of copolymers which can undergo the Diels-Alder reaction to form a gel. Under appropriate conditions, the retro Diels-Alder reaction can take place to provide for decreasing the viscosity of the aforementioned gel.
Owner:SCHLUMBERGER TECH CORP
Pseudothermoplastic, self-crosslinking composites
InactiveUS20140323001A1Reduce electron densityRapid responseLayered productsPretreated surfacesRoom temperatureDiels alder
In the present process, reversibly crosslinking composites or storage-stable prepregs are produced by means of a hetero Diels-Alder reactions (HDA,) for example of PMMA polymers. At slightly elevated temperature, these prepregs can be reversibly decrosslinked again by a retro hetero Diels-Alder reaction so that they become moldable. The back-reaction to products which are again crosslinked or high molecular weight then takes place at room temperature.
Owner:EVONIK DEGUSSA GMBH
Method for preparing 4-methylbenzaldehyde from isoprene and acrolein
ActiveCN104693016AReduce dependenceExtensive sources of raw materialsOrganic compound preparationCarbonyl compound preparationCyclohexene4-Methylbenzaldehyde
The invention relates to a method for preparing 4-methylbenzaldehyde from isoprene and acrolein. The method specifically comprises the following steps: enabling acrolein and analogues thereof to react with isoprene to carry out a Diels-Alder reaction at a proper temperature under the action of Lewis acidic ionic liquid to generate 4-methyl cyclohexene-3-formaldehyde and analogues thereof; by taking an organic solvent as a reaction medium and graphite oxide as a catalyst, carrying out a dehydrogenation reaction on 4-methyl cyclohexene-3-formaldehyde under proper temperature and pressure, and preparing 4-methylbenzaldehyde (4-methylbenzaldehyde, MBAD for short). According to the method disclosed by the invention, the isoprene and acrolein are taken as raw materials and are subjected to a simple two-step reaction to generate an aromatic target product with high additional value; the raw materials can be prepared from biomass resources, the product is cheap, regenerative, convenient to operate and high in yield, and a novel method for directly preparing chemicals from biomasses is provided.
Owner:DALIAN INST OF CHEM PHYSICS CHINESE ACAD OF SCI
Prepolymer containing mixture of C10, C15, C20 olefin, preparation and application thereof
ActiveCN1928025AHigh yieldHigh softening pointLiquid hydrocarbon mixtures productionPolymer sciencePetroleum resin
The present invention relates to process of preparing C10, C15 and C20 olefin mixture prepolymer with ethylene cracking C5 fraction. The process includes the Diels-Alder reaction of ethylene cracking C5 fraction containing conjugated diolefin and mono-olefin at temperature of 140-300 deg.c and pressure of 1.0-12.0 MPa for 3-12 hr, cooling before discharging, and subsequent rectifying to eliminate unreacted C5 fraction to obtain C10, C15 and C20 olefin mixture prepolymer. The prepolymer of the present invention may be used in producing C5 petroleum resin with narrow molecular weight distribution, raised compatibility with other hot melt adhesive components SIS, SBS and EVA and extremely expanded use range. In the same time, the present invention raises the utilization rate of polymerisable olefin in C5 fraction effectively.
Owner:SINOPEC LANZHOU GASOLINEEUM CHEM IND CORP
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