丙烯酸-2-乙基己酯 | 103-11-7

1. Synthesis of pH-responsive hydrophobically-modified hydrogels of poly(methacrylic acid-co-diallylammonium salt) in aqueous solution
Dang-Ge Gao,Jian-Zhong Ma,Hai-Qing Guo New J. Chem. 2010 34 2034

2. The analytical utility of thermally desorbed polydimethylsilicone membranes for in-vivo sampling of volatile organic compounds in and on human skin
S. Riazanskaia,G. Blackburn,M. Harker,D. Taylor,C. L. P. Thomas Analyst 2008 133 1020

3. Temperature-dependent shape-responsive fluorescent nanospheres for image-guided drug delivery
Shawn He,George Tourkakis,Oleg Berezin,Nikolay Gerasimchuk,Hairong Zhang,Haiying Zhou,Asaf Izraely,Walter J. Akers,Mikhail Y. Berezin J. Mater. Chem. C 2016 4 3028

4. Insights into the stabilization of photolabile UV-absorbers in sunscreens
Bernd Herzog,Jochen Giesinger,Volker Settels Photochem. Photobiol. Sci. 2020 19 1636

5. Biosourced terpenoids for the development of sustainable acrylic pressure-sensitive adhesives via emulsion polymerisation
Martijn A. Droesbeke,Alexandre Simula,José M. Asua,Filip E. Du Prez Green Chem. 2020 22 4561

6. Reversible addition-fragmentation chain transfer polymerization in microemulsion
Jennifer M. O'Donnell Chem. Soc. Rev. 2012 41 3061

7. Simultaneous determination of seven acrylates in food contact paper products by GC/MS and modified QuEChERS
Zhiqing Xun,Jinfeng Huang,Xiu-Ying Li,Senyu Lin,Shuang He,Xindong Guo,Yanping Xian Anal. Methods 2016 8 3953

8. An ε-caprolactone-derived 2-oxazoline inimer for the synthesis of graft copolymers
Jungyeon Kim,Christopher Waldron,Beatrice Cattoz,C. Remzi Becer Polym. Chem. 2020 11 6847

9. An ε-caprolactone-derived 2-oxazoline inimer for the synthesis of graft copolymers
Jungyeon Kim,Christopher Waldron,Beatrice Cattoz,C. Remzi Becer Polym. Chem. 2020 11 6847

10. The effects of polymer topology and chain length on the antimicrobial activity and hemocompatibility of amphiphilic ternary copolymers
Rashin Namivandi-Zangeneh,Rebecca J. Kwan,Thuy-Khanh Nguyen,Jonathan Yeow,Frances L. Byrne,Stefan H. Oehlers,Edgar H. H. Wong,Cyrille Boyer Polym. Chem. 2018 9 1735

物理化学性质

性状 无色透明液体。 熔点 -90℃ 沸点 215~219℃ 相对密度 0.8859 折射率 1.4358 闪点 82℃ 溶解性 几乎不溶于水。与醇、醚能混溶。

产品用途

用途一：用作聚合单体，用于软性聚合物，在共聚物中起内增塑作用.
用途二：丙烯酸2-乙基已酯为高分子聚合物的单体，与其他单体进行共聚、交联、接枝等到丙烯酸类树脂产品，用于合成纤维织物加工、粘合剂、涂料、塑料改性等许多方面。
用途三：1、有机合成，溶剂。 2、可聚合单体，用于软性聚合物，在共聚物中起内增塑作用。 3、供制备涂料、纺织、造纸、皮革、建筑粘合剂等工业用的各种树脂。

应用领域

生产方法

1.直接酯化法丙烯酸与2-乙基己醇以硫酸为催化剂进行酯化，再经中和，脱醇和精馏得成品。
2.酯交换法丙烯酸甲酯与2-乙基己醇在催化剂四氯化钛存在下进行酯交换反应生成丙烯酸-2-乙基己酯，经精馏制得成品。

丙烯酸-2-乙基己酯的安全特性

类别 易燃液体

毒性分级 中毒

急性毒性 腹腔-大鼠 LD50: 1670 毫克/公斤; 口服-小鼠 LD50: 4400 毫克/公斤

刺激数据 皮肤-兔子 20 毫克/24小时 中度; 眼睛-兔子 5 毫克 重度

可燃性危险特性 可燃; 加热分解释放刺激烟雾

灭火剂 干粉、泡沫、砂土、二氧化碳, 雾状水

化学品安全说明书(MSDS)

储运特性

 库房通风低温干燥