Preparation of Crosslinked Polystyrene Nanoparticles/Reduced Graphene Oxide Hybrids Using Electrostatic Self-assembly and Their Application in SBR

Chen Yao-ran; Lin Yong; Chen Yi-zhong; Zhang Ying; Liu Lan

doi:10.11777/j.issn1000-3304.2016.16116

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Preparation of Crosslinked Polystyrene Nanoparticles/Reduced Graphene Oxide Hybrids Using Electrostatic Self-assembly and Their Application in SBR

Research Article | 更新时间：2021-03-22

- Preparation of Crosslinked Polystyrene Nanoparticles/Reduced Graphene Oxide Hybrids Using Electrostatic Self-assembly and Their Application in SBR
- Acta Polymerica Sinica Issue 12, Pages: 1724-1734(2016)
- 作者机构：
  
  华南理工大学材料科学与工程学院,广州,510640
- 作者简介：
- 基金信息：
- DOI：10.11777/j.issn1000-3304.2016.16116
  CLC：
- Published：20 December 2016，
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Chen Yao-ran, Lin Yong, Chen Yi-zhong, Zhang Ying, Liu Lan. Preparation of Crosslinked Polystyrene Nanoparticles/Reduced Graphene Oxide Hybrids Using Electrostatic Self-assembly and Their Application in SBR. [J]. Acta Polymerica Sinica (12):1724-1734(2016)
DOI：

Chen Yao-ran, Lin Yong, Chen Yi-zhong, Zhang Ying, Liu Lan. Preparation of Crosslinked Polystyrene Nanoparticles/Reduced Graphene Oxide Hybrids Using Electrostatic Self-assembly and Their Application in SBR. [J]. Acta Polymerica Sinica (12):1724-1734(2016) DOI： 10.11777/j.issn1000-3304.2016.16116.

摘要

以十六烷基三甲基溴化铵（CTAB）为乳化剂，合成了交联聚苯乙烯纳米微球（PS）阳离子乳液；通过静电自组装以及原位还原制得了交联聚苯乙烯纳米微球/石墨烯杂化填料（PS@rGO）；将杂化填料与丁苯橡胶共混，制备了SBR/PS@rGO纳米复合材料.X-射线衍射（XRD）、红外光谱（FTIR）、拉曼光谱（Raman）和热重分析（TGA）证实了PS@rGO中rGO有效地得到还原并与PS存在着很强的π-π相互作用；扫描电子显微镜（SEM）测试结果表明，PS@rGO中PS纳米微球的粒径约为60~70 nm，并均匀地吸附在rGO表面，有效地阻止了rGO堆叠.SBR/PS@rGO纳米复合材料硫化性能研究表明，PS@rGO能大大缩短胶料的正硫化时间，增大交联密度；SEM，RPA和Mooney-Rivlin模拟等证明了，杂化填料在SBR基体中分散均匀，并搭接形成了更完善的填料网络结构，具有较强的界面相互作用，使得复合材料的力学性能和耐磨性能有较大的提高，很好地实现了补强.与添加同等30份的沉淀法SiO2相比，SBR/PS@rGO纳米复合材料不仅具有更优异的机械性能，而且具有更低的密度，有望在轮胎等橡胶制品中应用，以降低驱动能耗、节省能源.

Abstract

Positively charged crosslinked polystyrene (PS) nanoparticles were first synthesized by emulsion polymerization using CTAB as emulsifier

and crosslinked PS nanoparticles/reduced graphene oxide hybrids (PS@rGO) were fabricated by electrostatic self-assembly

accompanied with in situ reduction.The obtained PS@rGO hybrids were incorporated into SBR matrix to fabricate SBR/PS@rGO composites.The structure and morphology of the composites were investigated.The results showed that GO was efficiently reduced by in situ reduction

and the obtained reduced graphene oxide (rGO) exhibited strong π-π interactions with PS nanoparticles.PS particles with their size of 60~70 nm were uniformly adsorbed onto the surface of rGO sheets

which effectively prevented rGO sheets from re-stack and aggregation.Then vulcanization performance tests further indicated that the inclusion of PS@rGO hybrids not only shortened the curing time (Tc90) by accelerating the vulcanization rate (CRI)

but also improved the total crosslinking density of the composites.When 30 phr PS@rGO were introduced into SBR

the CRI was enhanced by 67.07%.And as expected

the morphology and performance analysis

and Mooney-Rivlin equation further demonstrated that PS@rGO hybrids were preferably dispersed in the matrix because of the synergistic effect resulted from PS and rGO

forming a 3D hybrid filler network in the rubber matrix.Also

it was reasonably concluded that the PS served as bridges connecting SBR matrix and rGO

resulting in strong interfacial interactions between PS@rGO and the rubber matrix.Thus

the improved filler dispersion and enhanced interfacial interactions greatly improved the mechanical performance and abrasion resistance of the SBR composites.For example

SBR/PS@rGO composites with a lower density exhibited higher mechanical performance and abrasion resistance in comparison with the SiO2 filled composites.These enhanced performances significantly conduce to reducing energy consumption under the dynamic condition

which further makes SBR/PS@rGO composites very promising in the application of rubber products

such as tire

etc.

关键词

交联聚苯乙烯纳米微球氧化石墨烯静电自组装PS@rGO丁二苯-苯乙烯橡胶

Keywords

Crosslinked polystyrene nanoparticlesGraphene oxideElectrostatic self-assemblyPS@rGOSBR

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Related Institution

Key Laboratory of Advanced Materials, Department of Chemical Engineering, Tsinghua University

School of Chemistry and Chemical Engineering, South China University of Technology

State Key Lab of Pulp and Paper Engineering, South China University of Technology

School of Materials Science and Engineering, Tianjin Polytechnic University

Stae Key Laboratory of Separation Membranes and Membrane Processes, Tianjin Polytechnic University

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