4168-48-3Relevant articles and documents
Method for catalytically oxidizing dicyclopentadiene through solid acid (by machine translation)
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Paragraph 0024-0052, (2020/05/14)
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)
Method for catalytic oxidation of dicyclopentadiene by supported heteropoly acid
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Paragraph 0022-0051, (2020/05/14)
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%.
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
Egunlusi, Ayodeji O.,Malan, Sarel F.,Omoruyi, Sylvester I.,Ekpo, Okobi E.,Palchykov, Vitalii A.,Joubert, Jacques
, (2020/07/27)
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