Multi-stimuli responsive and multi-functional oligoaniline-modified vitrimers

被引:190
作者
Chen, Qiaomei [1 ]
Yu, Xiaowen [1 ]
Pei, Zhiqiang [1 ]
Yang, Yang [1 ]
Wei, Yen [1 ]
Ji, Yan [1 ]
机构
[1] Tsinghua Univ, Dept Chem, Lab Bioorgan Phosphorus Chem & Chem Biol, Beijing 100084, Peoples R China
基金
美国国家科学基金会;
关键词
REDOX CATALYTIC CAPABILITY; SHAPE-MEMORY POLYMERS; DRUG-DELIVERY; POLYANILINE NANOPARTICLES; COMPOSITE ACTUATOR; DYNAMIC EXCHANGE; HYDROGELS; NETWORKS; REMOVAL; LIGHT;
D O I
10.1039/c6sc02855a
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Smart polymers have been playing indispensable roles in our lives. However, it is challenging to combine more than three stimuli-responses or functionalities into one polymer, not to mention integrating multistimuli responsivity and multi-functionality at the same time. Vitrimers, an emerging type of materials, are covalently crosslinked networks that can be reprocessed but are still infusible and insoluble. Herein, we show that simply introducing oligoaniline into a vitrimer results in a covalently crosslinked material that can respond to six different stimuli (heat, light, pH, voltage, metal ions and redox chemicals) and perform six functions (shape memory, welding, healing, recycling, electro-chromism and adsorption of metal ions). New properties, which cannot be found in either neat vitrimers or oligoanilines, are generated, including photo-heal-ability, photo-weldability, pH-induced shape memory, enhancement of the photothermal effect due to metal ions absorption and simultaneous multi-tasking operations. Furthermore, the material is low-cost and suitable for large-scale mass production.
引用
收藏
页码:724 / 733
页数:10
相关论文
共 74 条
[1]   Photothermal triggering of self-healing processes applied to the reparation of bio-based polymer networks [J].
Altuna, F. I. ;
Antonacci, J. ;
Arenas, G. F. ;
Pettarin, V. ;
Hoppe, C. E. ;
Williams, R. J. J. .
MATERIALS RESEARCH EXPRESS, 2016, 3 (04)
[2]   Self-healable polymer networks based on the cross-linking of epoxidised soybean oil by an aqueous citric acid solution [J].
Altuna, Facundo I. ;
Pettarin, Valeria ;
Williams, Roberto J. J. .
GREEN CHEMISTRY, 2013, 15 (12) :3360-3366
[3]  
[Anonymous], 2015, ANGEW CHEM, DOI DOI 10.1002/ANGE.201502957
[4]  
[Anonymous], 2014, ANGEW CHEM, V126, P4554
[5]   Shape-memory polymers [J].
Behl, Marc ;
Lendlein, Andreas .
MATERIALS TODAY, 2007, 10 (04) :20-28
[6]   A macroscopic study of the retention capacity of copper by polyaniline coated onto silica gel and natural solid materials [J].
Belaib, F ;
Meniai, AH ;
Bencheikh-Lehocine, M ;
Mansri, A ;
Morcellet, M ;
Bacquet, M ;
Martel, B .
DESALINATION, 2004, 166 (1-3) :371-377
[7]   Advances in Dielectric Elastomers for Actuators and Artificial Muscles [J].
Brochu, Paul ;
Pei, Qibing .
MACROMOLECULAR RAPID COMMUNICATIONS, 2010, 31 (01) :10-36
[8]   Polylactide Vitrimers [J].
Brutman, Jacob P. ;
Delgado, Paula A. ;
Hillmyer, Marc A. .
ACS MACRO LETTERS, 2014, 3 (07) :607-610
[9]   Self-Healing Materials Based on Disulfide Links [J].
Canadell, Judit ;
Goossens, Han ;
Klumperman, Bert .
MACROMOLECULES, 2011, 44 (08) :2536-2541
[10]   Catalytic Control of the Vitrimer Glass Transition [J].
Capelot, Mathieu ;
Unterlass, Miriam M. ;
Tournilhac, Francois ;
Leibler, Ludwik .
ACS MACRO LETTERS, 2012, 1 (07) :789-792