期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

壳聚糖基大孔炭质整体材料的制备及其对痕量二氧化硫的吸附性能 被引量:4

Preparation of carbon-based monolith with macro-pore from chitosan and its adsorption performance for trace SO_2
在线阅读 下载PDF
导出
摘要 以壳聚糖为碳源,综合采用冰模板技术和低温热解炭化技术,制备出具有蜂窝状孔结构特征的大孔炭质整体材料,研究了此类新材料对痕量二氧化硫的吸附性能及再生能力。结果表明,大孔炭质整体材料蜂窝状孔结构的形成及其规整程度与冰模板过程的冷冻时间等因素密切相关;200℃下低温热处理可得到具有丰富表面含氮官能团的大孔炭质整体材料;经氨水溶液中的离子交换功能化处理后,该大孔炭质整体材料对低浓度SO2的吸附容量显著提高,可达到57mg.g-1;吸附饱和后,经空气简单吹扫处理,大孔炭质整体材料即可大部分再生,少数不可再生部分是由于质子化的氨基与亚硫酸根和硫酸根在吸附过程中形成了不可逆化学吸附产物季铵盐所致。壳聚糖基大孔炭质整体吸附剂材料有望在污染空气的脱硫净化,特别是在质子交换膜燃料电池的阴极空气脱硫净化方面发挥重要作用。 Chitosan-based monolithic carbon materials(CBMCMs)with three-dimensional macro-porous honeycomb structure have been prepared by coupling ice templating process with a low-temperature heat treatment one,of which the adsorption and regeneration performance for trace SO2 in air were evaluated.It is found that formation of macro-porous structure can be tuned by varying the freezing time,and low temperature pyrolysis,such as 200℃,favors the retain of abundant surface nitrogen functional group in as-made CBMCMs.After ion-exchange treatment in ammonia solution,the adsorption capacity for trace SO2 of the CBMCMs is greatly enhanced,as high as 57 mg·g-1.The exhausted CBMCMs can be partially regenerated simply by air purge at room temperature.The unrecoverable part is due to the formation of ammonium salts from protonated amine group and sulfite and sulfate ions,as the product of irreversible adsorption.It is believed that after further optimization,the CBMCM materials reported here will be of potential in air cleaning for efficient removal of SOx species,especially for cathode air desulfurization in proton exchange membrane fuel cells.
作者 万鹏 张华 于畅 邱介山
机构地区 大连理工大学能源材料化工辽宁省重点实验室
出处 《化工学报》 EI CAS CSCD 北大核心 2013年第1期357-364,共8页 CIESC Journal
基金 国家自然科学基金项目(20836002,50972022,50902016)~~
关键词 冰模板法 壳聚糖 大孔炭质整体材料 吸附性能 二氧化硫 ice templating chitosan monolithic carbon materials with macro-pores adsorption capability SO2
分类号 TQ028.15 [化学工程]
  • 相关文献

参考文献26

  • 1Deville S. Freeze-casting of porous ceramics: a review ofcurrent achievements and issues [J]. Advanced EngineeringMaterials,2008,10 (3): 155-169.
  • 2Mahler W,Bechtold M F. Freeze-formed silica fibres [J].Nature, 1980, 285 (1); 27-28.
  • 3Gutierrez M C,Ferrer M L, del Monte F. Ice-templatedmaterials : sophisticated structures exhibiting enhancedfunctionalities obtained after unidirectional freezing and ice-segregation-induced self-assembly [ J ]. Chemistry ofMaterials,2008, 20 (3): 634-648.
  • 4Mori H? Aotani K,Sano N, Tamon H. Synthesis of ahierarchically micro-macroporous structured zeolite monolithby ice-templating [J]. J ournal of Materials Chemistry ?2011, 21 (15): 5677-5681.
  • 5Mukai S,Nishihara H,Yoshida T,Taniguchi K, TamonH.Morphology of resorcinol-formaldehyde gels obtainedthrough ice-templating [J]. Carbon, 2005,43 ( 7 ):1563-1565.
  • 6Nishihara H,Mukai S R, Yamashita D, Tamon H.Ordered macroporous silica by ice templating [ J ].Chemistry of Materials,2005,17 (3) : 683-689.
  • 7Portero A, Teijeiroosorio D, Alonso M, Remunanlopez C.Development of chitosan sponges for buccal administrationof insulin [J]. Carbohydrate Polymers, 2007,68 (4):617-625.
  • 8Qian L, Ahmed A, Foster A, Rannard S P, Cooper A I,Zhang H. Systematic tuning of pore morphologies and porevolumes in macroporous materials by freezing [J]. Journalof Materials Chemistry, 2009,19 (29): 5212-5219.
  • 9Launey M E,Munch E, Alsem D H, Saiz E,Tomsia AP,Ritchie R O. A novel biomimetic approach to the designof high-performance ceramic-metal composites [J]. Journal ofthe Royal Society Interface , 2010,7 (46) : 741-753.
  • 10Yi Baolian (衣宝廉).Fuel Cells: Principles, Techniquesand Applications (燃料电池一原理·技术·应用)[M].Beijing: Chemical Industry Press,2003.

二级参考文献46

  • 1王补森,丁泽仁,李文兰,郭振良,何炳林.新型络合吸附剂的研究(Ⅱ)——铜离子模板高分子多乙烯多胺络合吸附剂的合成和特性[J].高等学校化学学报,1993,14(4):582-585. 被引量:9
  • 2胡雪生,余江,夏寒松,刘庆芬,刘会洲.离子液体的绿色合成及环境性质[J].化学通报,2005,68(12):906-910. 被引量:40
  • 3Bard,A.J.;Faulkner,L.R.电化学方法原理和应用.邵元华,朱果逸,董献堆,张柏林译.北京:化学工业出版社,2005:373-395.
  • 4Conway,B.E.Electronic supercapacitor:scientific fundamental and technological and applications.New York:Kluwer Academic/Plenum Publishers,1999:19-55.
  • 5Frackowiak,E.; Béguin,F.Carbon,2001,39:937.
  • 6Brodd,R.J.; Bullock,K R.; Leising,R.A.; Middaugh,R.L.;Miller,J.R.; Takenchi,E.J.Electrochert Soc.,2004,151:K1.
  • 7Conway,B.E.J.Electrochert Soc.,1991,138:1539.
  • 8Arbizzani,C.; Mastragostino,M.; Soavi,F.J.Power Sources,2001,100:164.
  • 9KOtz,R.; Carlen,M.Electrochirt Acta,2000,45:2483.
  • 10Burke,A.J.Power Sources,2000,91:37.

共引文献40

同被引文献92

  • 1邱介山,孙玉峰,周颖,孙天军,李杞秀.淀粉基碳包覆铁纳米胶囊的合成及其磁学性能[J].新型炭材料,2006,21(3):202-205. 被引量:14
  • 2刘淑霞,贺军辉.负载铂纳米粒子大孔炭材料的无模板制备[J].新型炭材料,2007,22(3):253-258. 被引量:5
  • 3Sui W B, Zheng J T, Yang Z, et al. A simple method of pre- paring ordered and three-dimensionally-interconnected macro- porous carbon with mesoporosity by using silica template [ J ]. Materials Letters, 2011, 65(15-16): 2534 -2536.
  • 4Lu X B, Xiao Y, Lei Z B, et al. Graphitized macroporous car- bon microarray with hierarchical mesopores as host for the fabri- cation of electrochemical biosensor[ J]. Biosensors and Bioelec- tronics, 2009, 25 ( 1 ) : 244-247.
  • 5Liang CD, Dal S. Dual phase separation for synthesis of bimodal meso-/macroporous carbon monoliths[J]. Chemistry of Materi- als, 2009, 21(10) : 2115-2124.
  • 6Zhao Y, Zheng M B, Cao J M, et al. Easy synthesis of ordered meso/macroporous carbon monolith for use as electrode in elec- trochemical capacitors [ J ]. Materials Letters, 2008, 62 ( 3 ) : 548-551.
  • 7Sang W W, Kaoru D, Hiroyuki N, et al. Preparation of three di- mensionally ordered macropomus carbon with mesoporous walls for electric double-layer capacitors[ J]. Journal of Material Chem- istry, 2008, 18 (14) : 1674-1680.
  • 8Philipp A, Hu Y S, Laemthong C, et al. Generation of hierar- chical meso- and macroporous carbon from mesophase pitch by spinodal decomposition using polymer templates [ J ]. Advanced Materials, 2007, 19(22): 4012-4017.
  • 9Rios R, Martinez E M, Molina S M, et al. Carbon foam pre- pared by pyrolysis of olive stones under steam [ J ]. Carbon, 2006, 44(8) : 1448-1454.
  • 10Calvo M, Garcia R, Arenillas A, et al. Carbon foams from coals: A preliminary study. Fuel, 2005, 84(17) : 2184-2189.

引证文献4

二级引证文献20

化工学报
2013年 第1期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部