Chen Yu-Jiao, Wu Liang-Tao, Li Tai-An, Pu Meng-Qin, Sun Xiao-Li, Bao Hongli, Wan Wen-Ming
College of Environment and Resources, Engineering Research Center of Polymer Green Recycling of Ministry of Education, Fujian Key Laboratory of Pollution Control & Resource Reuse, Fujian Normal University, Fuzhou, 350007, P. R. China.
Key Laboratory of Coal to Ethylene Glycol and Its Related Technology, State Key Laboratory of Structural Chemistry, Center for Excellence in Molecular Synthesis, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fuzhou, 350002, P. R. China.
Angew Chem Int Ed Engl. 2023 Aug 1;62(31):e202304033. doi: 10.1002/anie.202304033. Epub 2023 Jun 26.
The development of novel polymerization capable of yielding polymers with low molecular weight distribution (Đ) is essential and significant in polymer chemistry, where monofunctional initiator contains only one initiation site in these polymerizations generally. Here, ketyl radical anion species is introduced to develop a novel Ketyl Mediated Polymerization (KMP), which enables radical polymerization at carbon radical site and anionic ring-opening polymerization at oxygen anion site, respectively. Meanwhile, polymerization and corresponding organic synthesis generally couldn't be performed simultaneously in one pot. Through KMP, organic synthesis and polymerization are achieved in one pot, where small molecules (cyclopentane derivates) and polymers with low Đ are successfully prepared under mild condition simultaneously. At the initiation step, both organic synthesis and polymerization are initiated by single electron transfer reaction with ketyl radical anion formation. Cyclopentane derivates are synthesized through 3-3 coupling reaction and cyclization. Polystyrene and polycaprolactone with low Đ and a full monomer conversion are prepared by KMP via radical polymerization and anionic ring-opening polymerization, respectively. This work therefore enables both organic synthesis and two different polymerizations from same initiation system, which saves time, labour, resource and energy and expands the reaction mode and method libraries of organic chemistry and polymer chemistry.
开发能够生成具有低分子量分布(Đ)聚合物的新型聚合反应在高分子化学中至关重要且意义重大,在这类聚合反应中,单官能引发剂通常仅含有一个引发位点。在此,引入了酮基自由基阴离子物种以开发一种新型的酮基介导聚合反应(KMP),该反应分别能够在碳自由基位点进行自由基聚合以及在氧阴离子位点进行阴离子开环聚合。同时,聚合反应和相应的有机合成通常无法在同一反应釜中同时进行。通过KMP,有机合成和聚合反应能够在同一反应釜中实现,在温和条件下成功同时制备出小分子(环戊烷衍生物)和低Đ的聚合物。在引发步骤中,有机合成和聚合反应均由形成酮基自由基阴离子的单电子转移反应引发。环戊烷衍生物通过3-3偶联反应和环化反应合成。通过KMP分别经由自由基聚合和阴离子开环聚合制备出了具有低Đ且单体转化率完全的聚苯乙烯和聚己内酯。因此,这项工作实现了从同一引发体系进行有机合成以及两种不同的聚合反应,节省了时间、人力、资源和能源,并扩展了有机化学和高分子化学的反应模式和方法库。
