4168-48-3

Upstream product

• 1755-01-7 endo-Dicyclopentadien 
• 77-73-6 bi(cyclopentadiene) 
• 247936-95-4 Tricyclo<5.2.1.0^2.6>deca-3,8-dien 
• 77-73-6 endo-<2+4>-Dicyclopentadien 
• 77-73-6 dicyclopentadiene 

Relevant academic research and scientific papers

Open and rearranged norbornane derived polycyclic cage molecules as potential neuroprotective agents through attenuation of MPP+- and calcium overload-induced excitotoxicity in neuroblastoma SH-SY5Y cells

The neuroprotective effects of closed polycyclic cage molecules such as NGP1-01, memantine and amantadine have been extensively explored. These effects are mostly linked to the antagonism of the N-methyl-D-aspartate (NMDA) receptor- and the blockage of vo

Synthesis of new azapolycyclic scaffolds via the domino aminolysis of dicyclopentadiene diepoxide in water

A convenient method is reported for the multigram scale synthesis of compounds containing the novel octahydro-1H-2,5-epimino-4,7-methanoindene azapolycyclic system in good yields. This method involves the domino aminolysis of readily available dicyclopentadiene diepoxide in water at 165 °C. 2D NMR and XRD spectra of the products were studied in detail.

Method for catalytically oxidizing dicyclopentadiene through solid acid (by machine translation)

Compared. the prior art, the method disclosed by the invention adopts a supported heteropoly acid catalytic oxidation dicyclopentadiene technology, to carry out catalytic oxidation reaction through a fixed bed or a suspension bed reactor with dicyclopentadiene as a raw material, as an oxidant, through a fixed bed or a suspension bed reactor in the presence of a solvent to prepare a catalyst, for catalyzing and oxidizing by using a fixed bed or a suspension bed reactor in the presence of a solvent to prepare the dicyclopentadiene, by the method . The method is simple, and is easy to recover, environment-friendly, target product ratio 96%. (by machine translation)

Preparation method of dicyclopentadiene dioxide based on modified nano aluminum oxide loaded heteropolyacid type compound catalyst

The invention discloses a method for preparing dicyclopentadiene dioxide by catalytic oxidation of dicyclopentadiene serving as a raw material in the presence of a solvent through a suspended bed or afixed bed reactor by taking a modified nano aluminum oxide loaded heteropolyacid type compound as a catalyst and hydrogen peroxide as an oxidant. Compared with the prior art, the preparation method provided by the invention has the advantages that the catalyst is long in service life, stable in performance, simple to separate and high in product yield, and the reaction yield of dicyclopentadienedioxide is greater than 96%.

Method for catalytic oxidation of dicyclopentadiene by supported heteropoly acid

The invention provides a method for catalytic oxidation of dicyclopentadiene by a supported heteropoly acid. According to the method, a supported heteropoly acid catalytic oxidation dicyclopentadieneprocess is adopted; dicyclopentadiene is used as a raw material, hydrogen peroxide is used as an oxidizing agent, a quaternary phosphonium salt-containing silylation reagent grafted and modified nanoMgO loaded heteropoly acid or peroxyheteropoly acid is used as a catalyst, and a fixed bed or suspended bed reactor is adopted for catalytic oxidation reaction in the presence of a solvent to preparedicyclopentadiene dioxide. Compared with the prior art, the method is simple, the catalyst is good in heat resistance, stable in service life, easy to recycle and environmentally friendly, and the yield of the target product is larger than 96%.

COMPOSITION FOR CURABLE RESIN, CURED PRODUCT OF SAID COMPOSITION, PRODUCTION METHOD FOR SAID COMPOSITION AND SAID CURED PRODUCT, AND SEMICONDUCTOR DEVICE

The invention relates to a curable resin composition containing (A) a multifunctional benzoxazine compound having two or more benzoxazine rings, (B) an epoxy compound having at least one norbornane structure and at least two epoxy groups, (C) a biphenyl type epoxy compound, and (D) a curing agent, and optionally (E) an inorganic filler and (F) a curing accelerator; a cured product thereof; methods of producing the curable resin composition and the cured product; and a semiconductor device in which a semiconductor element is disposed in a cured product obtained by curing a curable resin composition containing components (A) to (D), and optionally components (E) and (F).

SO2F2-Mediated Epoxidation of Olefins with Hydrogen Peroxide

An inexpensive, mild, and highly efficient epoxidation protocol has been developed involving bubbling SO2F2 gas into a solution of olefin, 30% aqueous hydrogen peroxide, and 4 N aqueous potassium carbonate in 1,4-dioxane at room temperature for 1 h with the formation of the corresponding epoxides in good to excellent yields. The novel SO2F2/H2O2/K2CO3 epoxidizing system is suitable to a variety of olefinic substrates including electron-rich and electron-deficient ones.

Synthetic method of bicyclopentadiene dioxide

The invention discloses a synthetic method of bicyclopentadiene dioxide. The synthetic method is invented to solve the problems of complex reaction process, low selectivity and serious equipment corrosion in the prior art. The bicyclopentadiene dioxide is synthesized by taking dicyclopentadiene as a raw material, and hydrogen peroxide as an oxygen source, under the catalysis effect of a phase transfer catalyst and phosphotungstic acid. The synthetic method comprises the following steps: (1) adding dicyclopentadiene and an aprotic solvent into a reaction bottle, starting stirring, and adding phosphotungstic acid and the phase transfer catalyst; (2) starting heating, raising the temperature to a reaction temperature of 30-60 DEG C, dropwise adding hydrogen peroxide with a mass fraction of 30%, and carrying out reaction for 4-9 h; and (3) cooling, filtering, washing an obtained organic layer with water until the organic layer is neutral, drying with anhydrous sodium sulfate, and evaporating the solvent to obtain the product. The method is green, environment-friendly and high in yield, and is mainly used for synthesizing bicyclopentadiene dioxide.

Method for synthesizing dicyclopentadiene dioxide

The present invention discloses a method for synthesizing dicyclopentadiene dioxide. According to the method, dicyclopentadiene is used as a reaction raw material, hydrogen peroxide is used as an oxidant, poly m-halogenated styrene-divinylbenzene quaternary phosphonium salt type anion exchange resin supported heteropoly acid or peroxoheteropolyacid is used as a catalyst, and an epoxidation reaction is performed by using a fixed bed or a batch tank reactor to obtain dicyclopentadiene dioxide. According to the present invention, the synthesis method is simple, the catalyst has advantages of goodheat resistance, stable service life and environmental friendliness, and the yield of the target product is more than 90%.

Method for preparing dicyclopentadiene dioxide through epoxidation of dicyclopentadiene

The invention discloses a method for preparing dicyclopentadiene dioxide through epoxidation of dicyclopentadiene. According to the method, dicyclopentadiene is used as a reaction raw material, poly o-halogenated styrene-divinylbenzene quaternary phosphonium salt type anion exchange resin supported heteropoly acid or peroxoheteropolyacid is used as a catalyst, and an epoxidation reaction is performed by using a fixed bed or a batch tank reactor to obtain dicyclopentadiene dioxide. According to the present invention, the method is simple, the catalyst has advantages of good heat resistance, stable service life and environmental friendliness, and the yield of the target product is high, and is more than 90%.