Synthesis of core-crosslinked star polymers via organocatalyzed living radical polymerization was written by Zheng, Yichao;Sarkar, Jit;Niino, Hiroshi;Chatani, Shunsuke;Hsu, Shu Yao;Goto, Atsushi. And the article was included in Polymer Chemistry in 2021.HPLC of Formula: 4074-88-8 This article mentions the following:
Core-crosslinked star polymers were prepared using organocatalyzed living radical polymerization via a “grafting-through” approach. A PBA homopolymer, an amphiphilic PMMA-PPEGA block copolymer, and a hard-soft PMMA-PBA block copolymer were synthesized as macroinitiators, where PBA is poly(Bu acrylate), PMMA is poly(Me methacrylate), and PPEGA is poly(poly(ethylene glycol)methyl ether acrylate). The macroinitiators were utilized in the polymerization of crosslinkable divinyl monomers, generating core-crosslinked star polymers in 40-80% yields. The PMMA-PBA block copolymer macroinitiator was synthesized from a PMMA with an unsaturated chain end (PMMA-Y) via an addition-fragmentation chain transfer method. The ease of handling of PMMA-Y is an advantage of the use of PMMA-Y. One-pot synthesis of a PBA star polymer was also successful, giving a star in a relatively high yield (73%). The one-pot synthesis offers a practical approach for synthesizing a core-crosslinked star polymer. The present approach is free from metals and odorous compounds, which is an attractive feature of the present approach. In the experiment, the researchers used many compounds, for example, Diethyleneglycoldiacrylate (cas: 4074-88-8HPLC of Formula: 4074-88-8).
Diethyleneglycoldiacrylate (cas: 4074-88-8) belongs to alcohols. Alkyl halides are often synthesized from alcohols, in effect substituting a halogen atom for the hydroxyl group. Under carefully controlled conditions, simple alcohols can undergo intermolecular dehydration to give ethers. This reaction is effective only with methanol, ethanol, and other simple primary alcohols.HPLC of Formula: 4074-88-8
Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts