Please wait a minute...
材料导报  2020, Vol. 34 Issue (4): 4137-4141    https://doi.org/10.11896/cldb.18120188
  高分子与聚合物基复合材料 |
室温非有机体系中HKUST-1的快速制备及对活性蓝194的吸附
那立艳1, 张丽影1, 张凤杰2, 华瑞年1
1 大连民族大学生命科学学院,大连 116600;
2 大连民族大学环境与资源学院,大连 116600
Rapid Preparation of HKUST-1 in Water at Room Temperature and Its Adsorption on Reactive Blue 194
NA Liyan1, ZHANG Liying1, ZHANG Fengjie2, HUA Ruinian1
1 College of Life Science, Dalian Minzu University, Dalian 116600, China;
2 College of Environment and Bioresources, Dalian Minzu University, Dalian 116600, China
下载:  全 文 ( PDF ) ( 2446KB ) 
输出:  BibTeX | EndNote (RIS)      
摘要 以均苯三甲酸铵与硝酸铜为反应物,在室温非有机体系中快速制备了配位聚合物材料HKUST-1。通过粉末XRD、SEM、氮气吸附对样品的物相、形貌和比表面积进行了表征。结果表明,制备的HKUST-1为微米颗粒,BET比表面积为1 246 m2·g-1。本工作考察了HKUST-1对水溶液中活性蓝194的去除效果,探讨了吸附剂加入量、pH值、初始浓度及反应时间对吸附性能的影响,并对吸附剂进行了再生实验。结果表明,HKUST-1对活性蓝194具有较高的吸附能力,室温下60 min内可达到吸附平衡,对染料的去除率达到95.7%。吸附等温线拟合结果较好地符合Langmuir模型,动力学研究结果表明吸附过程符合准二级动力学模型。HKUST-1良好的吸附性能、简便的合成方法及可再生性使其有望成为去除废水中染料分子的高效吸附剂。
服务
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章
那立艳
张丽影
张凤杰
华瑞年
关键词:  金属有机配位聚合物  HKUST-1  吸附性能  废水染料  活性蓝194    
Abstract: Coordination polymer material HKUST-1 was synthesized rapidly specific at room temperature by mixing Cu(NO3)2 and ammonium salt of H3BTC in aqueous system. The phase composition, morphology and specific surface areas were characterized by powder XRD, SEM and N2 sorption. The results indicated that the HKUST-1 samples were phase-pure micro particles with BET surface areas of 1 246 m2·g-1. The adsorbent activities of the samples were evaluated for the removal of reactive blue 194 from waste water. The influences of adsorbent amount, pH va-lue, initial concentration, reaction time and regeneration of spent adsorbent were investigated. The results suggested that the as-synthesized HKUST-1 exhibited good adsorption property for reactive blue 194. The adsorption process could reach equilibrium in 60 min at room temperature and the removal rate was 95.7%. The adsorption isotherm model accorded with the Langmuir isotherm model and the kinetic analysis revealed that the adsorption process was well-matched with the pseudo-second-order model. The as-synthesized HKUST-1 material could be a promising adsorbent for dyes removal from waste water for its excellent performance, simple synthesis process and easy regeneration.
Key words:  metal-organic coordination polymer    HKUST-1    adsorption property    dyeing waste water    reactive blue 194
               出版日期:  2020-02-25      发布日期:  2020-01-15
ZTFLH:  O641  
基金资助: 国家自然科学基金(31770502);辽宁省自然科学基金(201602203;20180550977)
通讯作者:  rnhua@dlnu.edu.cn   
作者简介:  那立艳,大连民族大学生命科学学院,副教授。2012年7月毕业于大连理工大学,获得工学博士学位。2001年4月至2018年12月在大连民族大学生命科学学院工作,主要从事金属有机配位聚合物材料的制备、表征及应用研究;华瑞年,大连民族大学生命科学学院,教授。2003年7月毕业于东北师范大学功能材料研究所,获得理学博士学位。2005年5月至2018年12月在大连民族大学生命科学学院工作,现主要研究方向为稀土掺杂纳米材料、纳米量子点及配位聚合物材料的制备及应用,并在国内外重要期刊发表文章70余篇。
引用本文:    
那立艳, 张丽影, 张凤杰, 华瑞年. 室温非有机体系中HKUST-1的快速制备及对活性蓝194的吸附[J]. 材料导报, 2020, 34(4): 4137-4141.
NA Liyan, ZHANG Liying, ZHANG Fengjie, HUA Ruinian. Rapid Preparation of HKUST-1 in Water at Room Temperature and Its Adsorption on Reactive Blue 194. Materials Reports, 2020, 34(4): 4137-4141.
链接本文:  
http://www.mater-rep.com/CN/10.11896/cldb.18120188  或          http://www.mater-rep.com/CN/Y2020/V34/I4/4137
1 Forgacs E, Cserháti T, Oros G. Environment International, 2004, 30(7), 95.
2 Cervantes F J,Dos Santos A B. Reviews in Environmental Science and Biotechnology, 2011, 10(2), 125.
3 Da Silva M E R, Firmino P I M, De Sousa M R, et al. Applied Bioche-mistry and Biotechnology, 2012, 166(4),1057.
4 Vosoughifar A. Journal of Materials Science: Materials in Electronics, 2018, 29(4), 3194.
5 Zhang Q L, Dong R F, Wu Y F.et al. ACS Applied Materials and Interfaces, 2017, 9(5), 4674.
6 Nikooe N, Saljoughi E. Applied Surface Science, 2017, 413(15), 41.
7 Pendergast M T M, Hoek E M V.Energy and Environmental Science, 2011, 4(6), 1946.
8 Jiang J Q. Current Opinion in Chemical Engineering, 2015, 8, 36.
9 Vijayaraghavan G, Rajasekaran R, Shantha Kumar S. International Journal of Chemical Sciences, 2013, 11(4),1824.
10 Sharma P, Kaur H, Sharma M, et al.Environmental Monitoring and Assessment, 2011, 183(1-4), 151.
11 Al-Qodah Z, Shawabkah R.Brazilian Journal of Chemical Engineering, 2009, 26(1), 127.
12 Yahya M A, Al-Qodah Z, Ngah C W Z, et al.Asian Journal of Chemistry, 2015, 27(6), 2331.
13 Ahmad A A, Idris A, Hameed B H.Desalination and Water Treatment, 2013, 51(13-15), 2554.
14 Khan N A, Hasan Z, Jhung S H.Journal of Hazardous Materials, 2013, 244-245(15), 444.
15 Abbasi A R, Rizvandi M.Ultrasonics Sonochemistry, 2018, 40, 465.
16 Abbasi A R, Karimi M, Daasbjerg K. Ultrasonics Sonochemistry, 2017, 37, 182.
17 Na L Y, Zhang L Y, Zhang F J, et al.Journal of Functional Matericals, 2018, 49(6), 06179(in Chinese).
那立艳, 张丽影, 张凤杰 等.功能材料, 2018, 49(6), 06179.
18 Chui S S Y, Lo S M F, Charmant J P H, et al.Science, 1999, 283, 1148.
19 Liu J C, Culp J T, Natesakhawat S, et al.The Journal of Physical Che-mistry C, 2007, 111(26), 9305.
20 Schlesinger M, Schulze S, Hietschold M, et al.Microporous and Mesoporous Materials, 2010, 132(1), 121.
21 Xi J H, He M C, Lin C Y. Microchemical Journal, 2011, 97(1), 85.
22 Liu Y. Journal of Chemical and Engineering Data, 2009, 54 (7), 1981.
23 Ghosal P S, Gupta A K. Journal of Molecular Liquids, 2017, 225,137.
24 Pengthamkeerati P, Satapanajaru T, Singchan O. Journal of Hazardous Materials, 2008, 153(3), 1149.
25 Srivastava V C, Swamyl M M, Mall I D, et al. Colloids and Surface A: Physicochemical and Engineering Aspects, 2006, 272(1-2), 89.
[1] 郑云武, 陶磊, 康佳, 黄元波, 刘灿, 郑志锋. 不同原料烘焙炭的理化特性及对亚甲基蓝的吸附性能[J]. 材料导报, 2019, 33(8): 1276-1284.
[2] 张理元, 由耀辉, 刘义武, 阮尚全. 无机沉淀胶溶法制备钛锂离子筛及其吸附性能研究[J]. 材料导报, 2019, 33(24): 4056-4061.
[3] 李雅明, 李艳军, 张江, 丛野, 崔正威, 袁观明, 董志军, 邹涛, 李轩科. K3V5O14的合成及光催化性能和吸附性能[J]. 材料导报, 2019, 33(12): 1926-1931.
[4] 程 波,向真才,郭 恒,熊云威. 煤岩材料对瓦斯吸附性能的研究进展[J]. 《材料导报》期刊社, 2018, 32(9): 1513-1518.
[5] 苏婷, 宋永辉, 张珊, 田宇红, 兰新哲. 硝酸活化时间对煤基电极材料结构及性能的影响[J]. 《材料导报》期刊社, 2018, 32(4): 528-532.
[1] Dongyong SI, Guangxu HUANG, Chuanxiang ZHANG, Baolin XING, Zehua CHEN, Liwei CHEN, Haoran ZHANG. Preparation and Electrochemical Performance of Humic Acid-based Graphitized Materials[J]. Materials Reports, 2018, 32(3): 368 -372 .
[2] Bingwei LUO,Dabo LIU,Fei LUO,Ye TIAN,Dongsheng CHEN,Haitao ZHOU. Research on the Two Typical Infrared Detection Materials Serving at Low Temperatures: a Review[J]. Materials Reports, 2018, 32(3): 398 -404 .
[3] Ming HE,Yao DOU,Man CHEN,Guoqiang YIN,Yingde CUI,Xunjun CHEN. Preparation and Characterization of Feather Keratin/PVA Composite Nanofibrous Membranes by Electrospinning[J]. Materials Reports, 2018, 32(2): 198 -202 .
[4] Huimin PAN,Jun FU,Qingxin ZHAO. Sulfate Attack Resistance of Concrete Subjected to Disturbance in Hardening Stage[J]. Materials Reports, 2018, 32(2): 282 -287 .
[5] Xu LI,Ziru WANG,Li YANG,Zhendong ZHANG,Youting ZHANG,Yifan DU. Synthesis and Performance of Magnetic Oil Absorption Material with Rice Chaff Support[J]. Materials Reports, 2018, 32(2): 219 -222 .
[6] XU Zhichao, FENG Zhongxue, SHI Qingnan, YANG Yingxiang, WANG Xiaoqi, QI Huarong. Microstructure of the LPSO Phase in Mg98.5Zn0.5Y1 Alloy Prepared by Directional Solidification and Its Effect on Electromagnetic Shielding Performance[J]. Materials Reports, 2018, 32(6): 865 -869 .
[7] WANG Tong, BAO Yan. Advances on Functional Polyacrylate/Inorganic Nanocomposite Latex for Leather Finishing[J]. Materials Reports, 2017, 31(1): 64 -71 .
[8] LI Jiawei, LI Dayu, GU Yixin, XIAO Jinkun, ZHANG Chao, ZHANG Yanjun. Research Progress of Regulating Anatase Phase of TiO2 Coatings Deposited by Thermal Spray[J]. Materials Reports, 2017, 31(3): 26 -31 .
[9] HUANG Dajian, MA Zonghong, MA Chenyang, WANG Xinwei. Preparation and Properties of Gelatin/Chitosan Composite Films Enhanced by Chitin Nanofiber[J]. Materials Reports, 2017, 31(8): 21 -24 .
[10] DU Wenbo, YAO Zhengjun, TAO Xuewei, LUO Xixi. High-temperature Anti-oxidation Property of Al2O3 Gradient Composite Coatings on TC11 Alloys[J]. Materials Reports, 2017, 31(14): 57 -60 .
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed