Surface modification of multi-walled carbon nanotubes by ammonia and catalytic degradation of oxalic acid by ozonation

doi:10.3969/j.issn.0438-1157.2012.08.030

CIESC Journal ›› 2012, Vol. 63 ›› Issue (8): 2551-2556.DOI: 10.3969/j.issn.0438-1157.2012.08.030

Previous Articles Next Articles

Surface modification of multi-walled carbon nanotubes by ammonia and catalytic degradation of oxalic acid by ozonation

HE Zhiqiao1,JIANG Zhe1,JIANG Liying1,YANG Zhangbao2,CHEN Jianmeng1,SONG Shuang1

Received:2011-11-25 Revised:2012-02-13 Online:2012-08-05 Published:2012-08-05

多壁碳纳米管的氨表面改性及其臭氧催化降解草酸

何志桥1，姜哲1，姜理英1，杨樟保2，陈建孟1，宋爽1

1浙江工业大学生物与环境工程学院，浙江杭州 310032；2浙江省环境工程有限公司，浙江杭州 310012

通讯作者: 宋爽

Abstract

Abstract: A series of ammonia-modified multi-walled carbon nanotubes was prepared via hydrothermal method.Their catalytic activity was evaluated by oxalic acid degradation in aqueous solution in the presence of ozone.It was found that the reaction process can be fitted to zero-order reaction kinetics.The apparent zero-order rate constant had a positive relation with the basic groups and pH value at zero charge point(pHPZC)of the catalysts.On this basis，it can be concluded that the significant enhancement of oxalic acid degradation is achieved by hydrothermal treatment with ammonia.The reason could be that the method promotes formation of basic groups and increase of pHPZC.

Key words: multi-walled carbon nanotubes, ammonia, hydrothermal treatment, oxalic acid, ozone, degradation

摘要： 采用水热方法制备了一系列用浓氨水改性的多壁碳纳米管催化剂，该催化剂的活性通过非均相催化臭氧化降解水溶液中的草酸来进行评价。降解过程符合零级反应动力学模型，且催化剂的表观动力学常数与其表面碱性基团数量以及零电位pH值（pHPZC）呈正相关。为此，可断定用浓氨在水热条件下处理多壁碳纳米管能明显提高催化臭氧降解草酸能力是因为提高了催化剂的表面碱性基团数量和pHPZC。

关键词: 多壁碳纳米管, 浓氨水, 水热处理, 草酸, 臭氧, 降解

CLC Number:

X703.1

HE Zhiqiao1,JIANG Zhe1,JIANG Liying1,YANG Zhangbao2,CHEN Jianmeng1,SONG Shuang1. Surface modification of multi-walled carbon nanotubes by ammonia and catalytic degradation of oxalic acid by ozonation[J]. CIESC Journal, 2012, 63(8): 2551-2556.

何志桥1，姜哲1，姜理英1，杨樟保2，陈建孟1，宋爽1. 多壁碳纳米管的氨表面改性及其臭氧催化降解草酸[J]. 化工学报, 2012, 63(8): 2551-2556.

[1]	Baiyu YANG, Yue KOU, Juntao JIANG, Yali ZHAN, Qinghong WANG, Chunmao CHEN. Chemical conversion of dissolved organic matter in petrochemical spent caustic along a wet air oxidation pretreatment process [J]. CIESC Journal, 2023, 74(9): 3912-3920.
[2]	Jintong LI, Shun QIU, Wenshou SUN. Oxalic acid and UV enhanced arsenic leaching from coal in flue gas desulfurization by coal slurry [J]. CIESC Journal, 2023, 74(8): 3522-3532.
[3]	Tan ZHANG, Guang LIU, Jinping LI, Yuhan SUN. Performance regulation strategies of Ru-based nitrogen reduction electrocatalysts [J]. CIESC Journal, 2023, 74(6): 2264-2280.
[4]	Ruikang LI, Yingying HE, Weipeng LU, Yuanyuan WANG, Haodong DING, Yongming LUO. Study on the electrochemical enhanced cobalt-based cathode to activate peroxymonosulfate [J]. CIESC Journal, 2023, 74(5): 2207-2216.
[5]	Simin YI, Yali MA, Weiqiang LIU, Jinshuai ZHANG, Yan YUE, Qiang ZHENG, Songyan JIA, Xue LI. Study on ammonia evaporation and hydration kinetics of microcrystalline magnesite [J]. CIESC Journal, 2023, 74(4): 1578-1586.
[6]	Yu XIE, Min ZHANG, Weiguo HU, Yujun WANG, Guangsheng LUO. Study on efficient dissolution of D-7-ACA using membrane dispersion microreactor [J]. CIESC Journal, 2023, 74(2): 748-755.
[7]	Huihuang FANG, Jinxing CHENG, Yu LUO, Chongqi CHEN, Chen ZHOU, Lilong JIANG. Recent progress on ammonia oxidation catalysts at anode and their performances in low-temperature direct ammonia alkaline exchange membrane fuel cells [J]. CIESC Journal, 2022, 73(9): 3802-3814.
[8]	Caifeng LI, Xiao WANG, Gangjian LI, Junzhang LIN, Weidong WANG, Qinglin SHU, Yanbin CAO, Meng XIAO. Synergistic relationship between hydrocarbon degrading and emulsifying strain SL-1 and endogenous bacteria during oil displacement [J]. CIESC Journal, 2022, 73(9): 4095-4102.
[9]	Wenzhang JIN, Yuling ZHANG, Xiaoyu JIA. Study on degradation efficiency of hydroxyethylidene diphosphonic acid by electrochemical advanced oxidation [J]. CIESC Journal, 2022, 73(9): 4062-4069.
[10]	Yongqian WANG, Ping WANG, Kang CHENG, Chenlin MAO, Wenfeng LIU, Zhicheng YIN, Antonio Ferrante. Stability and NO production of lean premixed ammonia/methane turbulent swirling flame [J]. CIESC Journal, 2022, 73(9): 4087-4094.
[11]	Xianlun XU, Yang QIAN, Xingwang ZHANG, Lecheng LEI. Study on treating soil contained pyrene by high voltage pulsed dielectric barrier discharge [J]. CIESC Journal, 2022, 73(9): 4025-4033.
[12]	Jiahui SHEN, Kanhong WANG, Dawei YU, Dazhou HU, Yuansong WEI. Free ammonia conditioning promoted micro-molecule organics release and methanogenesis of thickened sludge [J]. CIESC Journal, 2022, 73(9): 4147-4155.
[13]	Zhenhe XU, Hongjiang LI, Yu GAO, Zheng LI, Hanyan ZHANG, Baotong XU, Fu DING, Yaguang SUN. Preparation of In₂O₃/Ag:ZnIn₂S₄ “Type Ⅱ” heterogeneous structure materials for visible light catalysis [J]. CIESC Journal, 2022, 73(8): 3625-3635.
[14]	Shuyan WANG, Ruiyang ZHANG, Run LIU, Kai LIU, Ying ZHOU. Interfacial structure regulation of Mn(BO₂)₂/BNO to enhance catalytic ozone decomposition performance [J]. CIESC Journal, 2022, 73(7): 3193-3201.
[15]	Shiyuan HUANG, Jian DENG, Hanqin YUAN, Guohua WANG, Xingliang WU. Experimental study on activation of peroxymonosulfate by cobalt-enhanced ferromagnet [J]. CIESC Journal, 2022, 73(7): 3045-3056.

Surface modification of multi-walled carbon nanotubes by ammonia and catalytic degradation of oxalic acid by ozonation

多壁碳纳米管的氨表面改性及其臭氧催化降解草酸

PDF (PC)

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments