Page 66 - 精细化工2019年第9期

P. 66

·1794· 精细化工 FINE CHEMICALS 第 36 卷

包膜效果良好，对活性炭内部孔结构没有较大影响。 acetate[J]. Artificial Organs, 1979, 3(1): 11-14.
（2）以 pH=7.40 的磷酸缓冲液为溶剂，肌酐、 [7] Li Guodong ( 李国东 ). Study and application of polyvinyl
VB 12 和溶菌酶分别为小、中分子代谢废物或毒素代 butyralresin[J]. China Adhesives (中国胶粘剂), 2006, 15(6): 27-32.
[8] Bao Yanjun (包燕君), Liang Xiaoyi (梁晓怿), Zhu Jing (朱靖), et al.
表，构建模拟血液体系，代替血液环境，为临床应
Adsorption of spherical activated carbon against DL-caminobutyric
用提供参考。
acid[J]. Modern Chemical Industry ( 现代化工 ), 2017, 37(7):
（3）不同包膜条件下的包膜活性炭分别对肌酐、 113-116.
VB 12 和溶菌酶进行吸附，测定 3 种物质的吸附动力 [9] Okuno S, Ishimura E, Kohno K, et al. Serum β 2-microglobulin level
学和吸附等温线。结果表明，包膜前后活性炭的吸 is a significant predictor of morttality in maintenance haemodialysis
附机理并没有发生改变，PVB 质量分数对吸附量及 patients[J]. Nephrology Dialysis Transplantation, 2008, 24(2):
吸附速率的影响最大，且随质量分数的增大而显著 571-577.
[10] Zhang Juan (张娟), Guo Jianhui (郭建辉), Lv Xiaolong (吕晓龙), et
下降；PVB 分子量的改变则影响较小，但选用适当
al. Study of polyvinylidene fluoride hollow fiber dialyzers[J]. Int J
分子量的 PVB 包膜，有利于增强炭表面亲水作用，
Biomed Eng (国际生物医学工程杂志), 2011, 34(1): 11-15.
改善血液相容性。 [11] Ouyang X, Ouyang J, Guo F. Development of fuzzy analytical
（4）根据分子尺寸的差异性进行相对差异性双 network process to evaluate alternatives on Vitamin B 12 adsorption
组分吸附实验。VB 12 与溶菌酶体系中，溶菌酶的存 from wastewater[J]. Computers & Chemical Engineering, 2016, 95:
在对 VB 12 的竞争吸附作用明显，VB 12 的竞争吸附 123-129.
[12] Imoto T. Enjoying research on lysozymes for 42 years[J]. Yakugaku
强度高达 30%以上；肌酐与溶菌酶体系中，两者竞
Zasshy, 2003, 123(6): 377-386.
争吸附强度均低于 8%，包膜活性炭对于尺寸差异较
[13] Li Zongxiao (李宗孝), Yuan Chunlan (原春兰), Zhang Jianchao
大的分子有着稳定的吸附率。 (张建超). Extraction of lysozyme from egg white[J]. Fine Chemicals
（5）基于为血液灌流提供临床借鉴的目的，下 (精细化工), 2001, 18(2): 103-105.
一步研究重点为包膜活性炭血液相容性的表征，以 [14] Wang Jitong (王际童), Liu Xiaojun (刘小军), Li Zeshi (李泽斯), et
期使之成为优质的医用材料。 al. Adsorption behavior of glucose molecules by pitch-based
spherical activated carbon[J]. Ion Exchange and Adsorption (离子交
参考文献：换与吸附), 2011, 27(3): 247-256.
[15] Li Shiyu ( 李士雨 ), Wang Shaoting ( 王绍亭 ). Adsorption
[1] Zhang Benbin (张本镔), Liu Yunquan (刘运权), Ye Yueyuan (叶跃
元). Research progress on preparation of activated carbon and its characteristics of hemoperfusion process[J]. CIESC Journal (化工学
activation mechanism[J]. Modern Chemical Industry (现代化工), 报), 1995(4): 464-470.
2014, 34(3): 34-39. [16] Ghaedi M, Nasab A G, Khodadoust S, et al. Application of activated
[2] Vinod K G, Arunima N, Shilpi A, et al. Potential of activated carbon carbon as adsorbents for efficient removal of methylene blue:
from waste rubber tire for the adsorption of phenolics: effect of kinetics and equilibrium study[J]. Journal of Industrial and
pre-treatment condition[J]. Journal of Colloid and Interface Science, Engineering Chemistry, 2014, 20(4): 2317-2324.
2014, 417: 420-430. [17] Zhang S, Shao T, Karanfil T, et al. The correlation between structural
[3] Chang T M S. Removal of endogenous and exogenous toxins by a characteristics of activated carbons and their adsorption of organic
microencapsulated absorbent[J]. Can J Physiol Pharmacol, 1969, 12: solutes from aqueous solutions[J]. Adsorption, 2012, 18(3/4): 229-
1043-1045. 238.
[4] Jia Chunchao (贾纯超). Study on removal of bilirubin by whole [18] Seiichi Kondo, Tatsuo Ishikawa, Ikuo Abe. Adsorption of science (吸
blood perfusion with agarose coated activated carbon[D]. Dalian: 附科学)[M]. Li Guoxi (李国希), translation. Beijing: Chemical
Dalian University of Technology (大连理工大学), 2013. Industry Press (化学工业出版社), 2010: 135-139.
[5] Howell CA. New dextran coated activated carbons for medical use[J]. [19] Demiral H, Demial I, Tümsek F, et al. Adsorption of chromium (Ⅵ)
Carbon, 2016, 97: 134-146. from aqueous solution by activated carbon derived from olive
[6] Tijssen J, Bantjes A, Doorn AWJ. A hemoperfusioncolumnbased on bagasseand applicability of different adsorption models[J]. Chemical
activated carbon granules coated with an ultrathin membrane of cellulose Engineering Journal, 2008, 144(2): 188-196.

61 62 63 64 65 66 67 68 69 70 71