Four kinds of modified montmorillonites were prepared by introducing different content of hexadecyltriphenyl phosphonium cations into sodium montmorillonite (Na/MMT) through an ion-exchange method, and characterized using thermogravimetry (TGA), X-ray diffraction (XRD) and scanning electron microscope (SEM). Also the Zeta potentials and antibacterial activity of the modified montmorillonites were investigated. The onset temperatures of the decomposition for quaternary phosphonium cations in modified montmorillonites are all higher than 230℃, which have good thermal stability. For the montmorillonites, the interlayer spacings enlarge, the Zeta potentials increase and the antibacterial activity improves with the increase of the content of quaternary phosphonium cations. Na/MMT displays flake shape with the particles adhered and interwinded each other, while the modified montmorillonites are in irregular shape. QPC/MMT3 containing 23.55wt% quaternary phosphonium cations, possesses the minimal inhibitory concentration (MICs) against E.coli and S.aureus of 1.2g/L and 0.1g/L, respectively. After contacting the bacteria for 24h, 1.0g/L of QPC/MMT-3 is able to kill more than 99.9% E.coli, and nearly all the E.coli. Moreover, QPC/MMT-3 has good water resistance.
TAN Shao-Zao
,
ZHENG Jia
,
CHEN Yin
,
XIE Yu-Shan
,
SHI Qing-Shan
,
OUYANG You-Sheng
,
CHEN Yi-Ben
. Preparation and Characterization of the Antibacterial Modified Montmorillonites Containing Quaternary Phosphonium Cations[J]. Journal of Inorganic Materials, 2009
, 24(3)
: 507
-511
.
DOI: 10.3724/SP.J.1077.2009.00507
[1] Ayben T, Semra U. Applied Clay Science, 2004, 27(1-2):13-19.
[2]Tan S Z, Ding L C, Liu Y L, et al. Chinese Chemical Letters, 2007, 18(1): 85-88.
[3]River-Garza M, Olguín M T, García-Sosa I, et al. Microporous and Mesoporous Materials, 2000, 39(3): 431-444.
[4]Zhang L, Yu J C, Yip H Y, et al. Langmuir, 2003, 19(24): 10372-10380.
[5]Kwolek T, Hodorowicz M, Stadnicka K, et al. Journal of Colloid and Interface Science, 2003, 264(1): 14-19.
[6]Fan L P, Chen M, Zhang Y G, et al. Chinese Journal of Chemistry,2007, 25(5): 666-669.
[7]Saso N, Yamamoto T, Umemura Y, et al. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2008, 317(1-3): 309-315.
[8]Herrera P, Burghardt R C, Phillips T D. Veterinary Microbiology, 2000, 74(3): 259-272.
[9]张葵花, 谭绍早, 刘应亮. 硅酸盐学报, 2006, 34(1): 87-93.
[10]张葵花, 谭绍早, 刘应亮. 化工新型材料, 2005, 33(11): 44-47.
[11]谭绍早, 张葵花, 李笃信, 等. 中南大学学报 (自然科学版), 2006, 37(2): 280-285.
[12]Tan S Z, Zhang L L, Huang L H, et al. Journal of the Ceramic of Society of Japan, 2007, 115(4): 269-271.
[13]谭绍早, 张葵花, 刘应亮. 复合材料学报, 2006, 23(3): 82-86.
[14]Xie W, Gao Z M, Pan W P, et al. Chemistry of Materials, 2001, 13(9): 2979-2990.
[15]Viva R A, Teukolsky R K, Giannelis E P. Chemistry of Materials, 1994, 6(7): 1017-1022.
[16]柯扬船.[美]皮特.斯壮. 聚合物无机纳米复合材料. 北京: 化学工业出版社, 2003: 65-76.
[17]王艳萍,赵虎山. 化妆品微生物学. 北京: 中国轻工业出版社, 2002: 24-27.
[18]El-Nahhal Y Z, Safi J U. Applied Clay Science, 2004, 24(3-4):129-136.
