Your search keyword '"high cis-1,4 unit"' showing total 2 results

1. A novel synthetic strategy for styrene–butadiene–styrene tri-block copolymer with high cis-1,4 units via changing catalytic active centres

Author

Xiaodong Fan, Xin Min, Tong Wang, Xiuzhong Zhu, Jie Liu, Xuan Zhang, and Zichao Wang

Subjects

Materials science, Styrene-butadiene, 02 engineering and technology, 01 natural sciences, Styrene, high cis-1,4 unit, chemistry.chemical_compound, butadiene, Polymer chemistry, Copolymer, Butyllithium, lcsh:Science, tri-block copolymer, Multidisciplinary, 010405 organic chemistry, catalytic active centre, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemistry, Monomer, Anionic addition polymerization, chemistry, Polymerization, styrene, lcsh:Q, Polystyrene, 0210 nano-technology, Research Article

Abstract

A styrene–butadiene–styrene tri-block copolymer (SBS) with a high cis -1,4 unit content (greater than 97%) was synthesized by a novel synthetic strategy based on changing the catalytic active centres using n -butyllithium and a nickel-based catalyst. Firstly, styrene was polymerized via anionic polymerization using butyllithium as the initiator (Li, activity centre Li) at 50°C. The obtained alkylated macroinitiator (PSLi) was aged with nickel naphthenate (Ni) and boron trifluoride etherate (B) to prepare a second reactive centre (Ni-F), which was used to initiate the polymerization of butadiene (Bd). Finally, triphenyl phosphine (PPh 3 ) was added to adjust the electron density of the third active centre (P-Ni-F), and styrene monomer was added again to synthesize the second polystyrene block to obtain SBS. The polymerization technique presented here is simple and has an efficient initiation effect due to the high initiation activities for the different monomers. It also exhibits excellent control over the stereo-structure of the butadiene segments in the prepared copolymers, and the SBS polymers with high cis -1,4 unit content were easily achieved.

Published

2019

2. A New Synthesis Strategy on Styrene-Butadiene Di-Block Copolymer Containing High cis-1,4 Unit Via Transfer of Anionic to Coordination Polymerization

Author

Xiuzhong Zhu, Tong Wang, Jie Liu, Zichao Wang, Xiaodong Fan, and Xin Min

Subjects

Styrene-butadiene, Polymers and Plastics, General Chemistry, Article, high cis-1,4 unit, anionic polymerization, lcsh:QD241-441, chemistry.chemical_compound, Monomer, Anionic addition polymerization, Polymerization, chemistry, coordination polymerization, lcsh:Organic chemistry, styrene-butadiene di-block copolymer, Polymer chemistry, Copolymer, Coordination polymerization, Molar mass distribution, mechanistic transfer, Boron trifluoride

Abstract

A novel synthesis strategy on styrene-butadiene di-block copolymer (PS-b-PB) with high cis-1,4 unit content was developed, based on a transfer technique from anionic to coordination polymerization. Firstly, the styrene monomer was initiated by n-butyllithium (Li) utilizing anionic polymerization at 50 &deg, C, which resulted in a macromolecular alkylating initiator (PSLi). Secondly, PSLi was aged with nickel naphthenate (Ni) and boron trifluoride etherate (B) for obtaining a complex catalyst system (Ni/PSLi/B). Then, Ni/PSLi/B was applied to initiate the butadiene (Bd) polymerization. Following this new strategy, a series of PS-b-PBs were successfully synthesized. The experimental results indicated that under the molar ratio combination of [Li]/[Ni] = 5 and [B]/[Li] = 1, styrene-butadiene di-block copolymers could be easily achieved with high cis-1,4 unit content (&gt, 97%) and controlled molecular weight as well as narrow molecular weight distribution (Mw/Mn &lt, 1.5). Furthermore, the copolymer&rsquo, s block ratio could also be effectively controlled by controlling the two components&rsquo, monomer feed ratio.

Published

2019