Magnetic motive, ordered mesoporous carbons with partially graphitized framework and controllable surface wettability： preparation, characterization and their selective adsorption of organic pollutants in water

原文传递

导出

摘要有磁力地活跃，订并且稳定的 mesoporous 碳与部分， graphitized 网络和可控制的表面 wettability (PR-Fe-P123-800 和 PR-Ni-P123-800 ) 通过 Fe 或 Ni functionalized 的直接碳化被综合了，并且在 800 点订了 mesoporous Magnetically active, ordered and stable mesoporous carbons with partially graphitized networks and controllable surface wettability （PR-Fe-P123-800 and PR-Ni- P123-800） have been synthesized through direct carbonization of Fe or Ni functionalized, and ordered mesoporous polymers at 800℃, which could be synthesized from self assembly of resol （phenol/formaldehyde） with block copolymer template （P123） in presence of Fe3＋ or Ni2＋, and hydrothermal treatment at 200℃. PR-Fe-P123-800 and PR-Ni- P123-800 possess ordered and uniform mesopores, large BET surface areas, good stabilities, controllable surface wettability and partially graphitized framework. The above structural characteristics result in their enhanced selective adsorption property and good reusability for organic pollutants such as RhB, p-nitrophenol and n-heptane in water, which could be easily regenerated through separation under constant magnetic fields and washing with ethanol solvent. The unique magnetically active and adsorptive property found in PR-Fe-P123-800 and PR-Ni-P123-800 will be very important for them to be used as efficient absorbents for removal of various organic pollutants in water.

作者 Bin ZHANG Chen LIU Weiping KONG Chenze QI

机构地区 Department of Chemistry School of Chemistry & Chemical Engineering

出处《Frontiers of Materials Science》 SCIE CSCD 2016年第2期147-156,共10页 材料学前沿（英文版）

关键词表面润湿性有机污染物有序介孔石墨化可控吸附特性水体框架 magnetic separation mesoporous carbon graphitization adsorption hightemperature synthesis

分类号 TQ127.2 [化学工程—无机化工] TS195.6 [轻工技术与工程—纺织化学与染整工程]

引文网络
相关文献

参考文献30

1Ryoo R, Joo S H, Jun S. Synthesis of highly ordered carbon molecular sieves via template-mediated structural transformation. Journal of Physical Chemistry B, 1999, 103(37): 7743-7746.
2Wickramaratne N P, Perera V S, Park B W, et al. Graphitic mesoporous carbons with embedded prussian blue-derived iron oxide nanoparticles synthesized by soft templating and low- temperature graphitization. Chemistry of Materials, 2013, 25(14): 2803-2811.
3Zhai Y, Dou Y, Zhao D, et al. Carbon materials for chemical capacitive energy storage. Advanced Materials, 2011, 23(42): 4828-4850.
4Meng Y, Gu D, Zhang F Q, et al. Ordered mesoporous polymers and homologous carbon frameworks: amphiphilic surfactanttemplating and direct transformation. Angewandte Chemic International Edition, 2005, 44(43): 7053-7059.
5Almeida V C, Silva R, Acerce M, et al. N-doped ordered mesoporous carbons with improved charge storage capacity by tailoring N-dopant density with solvent-assisted synthesis. Journal of Materials Chemistry A: Materials for Energy and Sustainability, 2014, 2(36): 15181-15190.
6Liang C, Dai S. Synthesis of mesoporous carbon materials via enhanced hydrogen-bonding interaction. Journal of the American Chemical Society, 2006, 128(16): 5316-5317.
7Liu F J, Li C J, Ren L M, et al. High-temperature synthesis of stable and ordered mesoporous polymer monoliths with low dielectric constants. Journal of Materials Chemistry, 2009, 19(42): 7921-7928.
8Wang X, Liang C, Dai S. Facile synthesis of ordered mesoporous carbons with high thermal stability by self-assembly ofresorcinol- formaldehyde and block copolymers under highly acidic condi- tions. Langmuir, 2008, 24(14): 7500-7505.
9Lee K T, Ji X L, Rault M, et al. Simple synthesis of graphitic ordered mesoporous carbon materials by a solid-state method using metal phthalocyanines. Angewandte Chemie International Edition, 2009, 48(31): 5661-5665.
10Su P, Jiang L, Zhao J, et al. Mesoporous graphitic carbon nanodisks fabricated via catalytic carbonization of coordination polymers. Chemical Communications, 2012, 48(70): 8769- 8771.

1刘鸿健,王国力,余本科.碳酸锶碳化工艺改进研究[J].化工时刊,1997,11(6):29-31. 被引量：4
2Dongthanh NGUYEN,Wei WANG,Haibo LONG,Hongqiang RU.Facile and controllable preparation of mesoporous TiO2 using poly（ethylene glycol） as structure-directing agent and peroxotitanic acid as precursor[J].Frontiers of Materials Science,2016,10(4):405-412.
3任俊,卢寿兹.亲水性及疏水性颗粒在水中的分散行为研究[J].中国粉体技术,1999,5(2):6-9. 被引量：23
4杜春慧,Xu-min Ma,Chun-jin Wu,Mei-qiang Cai,Meng-xin Hu,Ting Wang.Polymerizable Ionic Liquid Copolymer P(MMA-co-BVIm-Br) and Its Effect on the Surface Wettability of PVDF Blend Membranes[J].Chinese Journal of Polymer Science,2015,33(6):857-868. 被引量：8
5李晓宇,姜良宝,厉蕾,颜悦.酸腐蚀对化学强化铝硅酸盐玻璃表面润湿性的影响[J].航空材料学报,2016,36(6):54-60.
6OU JunFei,SHI QingWen,WANG ZhiLe,WANG FaJun,XUE MingShan,LI Wen,YAN GuiLong.Sessile droplet freezing and ice adhesion on aluminum with different surface wettability and surface temperature[J].Science China(Physics,Mechanics & Astronomy),2015,58(7):67-74. 被引量：1
7Changlu Xu,Haoran Liu,Huilin Yang,Lei Yang.A Green Biocompatible Fabrication of Highly Porous Functional Ceramics with High Strength and Controllable Pore Structures[J].Journal of Materials Science & Technology,2016,32(8):729-732. 被引量：4
8Mehdi Bagheri,Afshin Bakhtiari,Masoume Jaberit.Estimation of Formation Enthalpies of Organic Pollutants from a New Structural Group Contribution Method[J].Chinese Journal of Chemical Engineering,2013,21(6):644-653.
9陈东生,甘应进,张永宁.活性碳纤维的研究开发与应用[J].天津纺织科技,1995(4):5-7. 被引量：1
10XIN Ling staff reporter.Fighting Against Persistent Organic Pollutants--An Interview with Prof.JIANG Guibin[J].Bulletin of the Chinese Academy of Sciences,2011,25(2):123-125.

Frontiers of Materials Science

2016年第2期

浏览历史

内容加载中请稍等...

Magnetic motive, ordered mesoporous carbons with partially graphitized framework and controllable surface wettability： preparation, characterization and their selective adsorption of organic pollutants in water

参考文献30

相关作者

相关机构

相关主题

浏览历史