Page 58 - ACCB 2020
P. 58
Revista de la Asociación Colombiana de Ciencias Biológicas
issn impreso 0120-4173, issn en línea 2500-7459
treatment technology: a review. Water Res, 44, 2997–3027.
83. Wahab, R., Hwang, I.H., Kim, Y.-S., Musarrat, J., Siddiqui, M.A., Seo, H.-K. et al (2011) Non-hydro-
lytic synthesis and photo-catalytic studies of ZnO nanoparticles. Chem Eng J, 175, 450–457.
84. Kaur, R. and Pal, B. (2012) Size and shape dependent attachments of Au nanostructures to TiO for
2
optimum reactivity of Au–TiO photocatalysis. J Mol Catal A Chem, 355, 39–43.
2
85. Prabhakaran, D., Nanjo, H. and Matsunaga, H. (2007) Naked eye sensor on polyvinyl chloride pla-
tform of chromo-ionophore molecular assemblies: a smart way for the colorimetric sensing of toxic
metal ions. Anal Chim Acta, 601, 108–117.
86. Elad, T. and Belkin, S. (2013) Broad spectrum detection and “barcoding” of water pollutants by a
genome-wide bacterial sensor array. Water Res, 47, 3782–90.
87. Guijarro,C., Fuchs,K., Bohrn, U., Stütz, E. and Wölfl , S. (2015) Simultaneous detection of multiple
bioactive pollutants using a multiparametric biochip for water quality monitoring Biosens Bioelectron,
72, 71–79.
88. Ding, N., Zhao, H., Peng, W., He, Y., Zhou, Y., Yuan, L. et al (2012) A simple colorimetric sensor based
2+
on anti-aggregation of gold nanoparticles for Hg detection. Colloids Surfaces A Physicochem Eng
Asp, 395,161-167.
89. Li, Y.L., Leng, Y.M., Zhang, Y.J., Li, T.H., Shen, Z.Y. and Wu, A.G. (2014) A new simple and reliable
2+
Hg detection system based on anti-aggregation of unmodifi ed gold nanoparticles in the presence of
O-phenylenediamine Sensors Actuators B Chem, 200, 140-146.
90. Farhadi, K., Forough, M., Molaei, R., Hajizadeh, S. and Rafi pour, A. (2012) Highly selective Hg 2+
colorimetric sensor using green synthesized and unmodifi ed silver nanoparticles. Sensors Actuators B
Chem, 161, 880–885.
91. Wang, G.-L., Zhu, X.-Y., Jiao, H.-J., Dong, Y.-M. and Li, Z.-J. (2012) Ultrasensitive and dual functio-
nal colorimetric sensors for mercury (II) ions and hydrogen peroxide based on catalytic reduction
property of silver nanoparticles. Biosens Bioelectron, 31, 337–342.
92. Alizadeh, A., Khodaei, M.M., Hamidi, Z. and Shamsuddin, M. bin (2014) Naked-eye colorimetric
+
detection of Cu and Ag ions based on close-packed aggregation of pyridines-functionalized gold
2+
nanoparticles. Sensors Actuators B Chem, 190, 782–791.
93. Xin, X., Sun, S., Li, H., Wang, M. and Jia, R. (2015) Electrochemical bisphenol A sensor based on
core–shell multiwalled carbon nanotubes/graphene oxide nanoribbons. Sensors Actuators B Chem,
209, 275–280.
94. Cabral, J.P.S. (2010) Water microbiology. Bacterial pathogens and water. Int J Environ Res Public
Health, 7, 3657–3703.
95. Bindhu, M.R. and Umadevi, M. (2014) Silver and gold nanoparticles for sensor and antibacterial appli-
cations. Spectrochim. Acta A Mol Biomol Spectrosc, 128, 37–45.
96. Adams, L.K., Lyon, D.Y. and Alvarez, P.J.J. (2006) Comparative eco-toxicity of nanoscale TiO , SiO ,
2 2
and ZnO water suspensions. Water Res, 40, 3527–32.
97. Brayner, R., Ferrari-Iliou, R., Brivois, N., Djediat, S., Benedetti, M.F. and Fiévet, F. (2006) Toxicologi-
cal impact studies based on Escherichia coli bacteria in ultrafi ne ZnO nanoparticles colloidal medium.
Nano Lett, 6, 866–870.
98. Nguyen,T., Huynh,T., Dang,C-H, Mai, D-T, Nguyen, T., Nguyen, D-T et al (2020) Novel biogenic
silver nanoparticles used for antibacterial effect and catalytic degradation of contaminants. Res Chem
Intermed, 46, 1975–1990.
99. Zhao, X., Lv, L., Pan, B., Zhang, W., Zhang, S. and Zhang, Q. (2011) Polymer-supported nanocompo-
sites for environmental application: a review. Chem Eng J, 170, 381–394.
100. Roldán, M. V, de Oña, P., Castro, Y., Durán, A., Faccendini, P., Lagier, C. et al (2014) Photocatalytic
and biocidal activities of novel coating systems of mesoporous and dense TiO -anatase containing
2
silver nanoparticles. Mater Sci Eng C Mater Biol Appl, 43, 630–640.
101. Dachs, J., Lohmann, R., Ockenden, W.A., Méjanelle, L., Eisenreich, S.J. and Jones, K.C. (2002) Oce-
anic biogeochemical controls on global dynamics of persistent organic pollutants. Environ Sci Technol
36, 4229–4237.
102. Torres, M.A., Barros, M.P., Campos, S.C.G., Pinto, E., Rajamani, S., Sayre et al (2008) Biochemical
biomarkers in algae and marine pollution: a review. Ecotoxicol Environ Saf, 71, 1–15.
103. Vernouillet, G., Eullaffroy, P., Lajeunesse, A., Blaise, C., Gagné, F. and Juneau, P. (2010) Toxic effects
and bioaccumulation of carbamazepine evaluated by biomarkers measured in organisms of different
58
Rev. Asoc. Col. Cienc.(Col.), 2020; 32: 42-62.
