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2804332 
Journal Article 
Evaluation of charge and agglomeration behavior of TiO2 nanoparticles in ecotoxicological media 
Nur, Y; Lead, JR; Baalousha, M 
2014 
Science of the Total Environment
ISSN: 0048-9697
EISSN: 1879-1026 
535 
45-53 
English 
25432129 
WOS:000360291100006 
The dynamic nature of nanoparticle (NP) agglomeration behavior is of paramount interest to many current studies in environmental nanoscience and nano(eco)toxicology because agglomeration affects the NP bioavailability and toxicity. The present study investigates the surface charge and agglomeration behavior of TiO2 NPs in four different ecotoxicological media (OECD algae, OECD L_variegatus, hardwater and plant media) and two different electrolytes KCl (200mM) and CaCl2 (50mM). TiO2 NPs were positively charged, and the zeta potential varied from +1.9mV in hardwater (at pH7.1) to +24.5mV in CaCl2 electrolyte (at pH7.4) in all media except algae media, where the zeta potential was -6.7mV (at pH7.7). Despite the differences in the pH and the surface charge of TiO2 NPs in the different media, an immediate agglomeration of the NPs in all standard ecotoxicological media was observed with aggregate sizes in the micrometer scale, as the measured zeta potentials were insufficient to prevent TiO2 NP agglomeration. The isoelectric point (pHiep) of TiO2 NPs in the studied media varied in the range (6.8-7.6), which was attributed to preferential association of anions and cations to TiO2; that is the pHiep decreases with the increased concentration of Cl and increases with the increased concentrations of Na and Mg. Despite the complexity of the ecotoxicological media and the presence of a mixture of different monovalent and divalent electrolytes, the agglomeration kinetics in the media follows the DVLO theory where two distinct agglomeration rates (slow, reaction limited regime and fast, diffusion limited regime) were observable. The critical coagulation concentration (CCC) of TiO2 NPs in the ecotoxicological media varied from 17.6 to 54.0% v/v standard media in UHPW, due to differences in media pH and TiO2 NP surface charge. In the ecotoxicological media (hardwater, L-variegatus and plant), where TiO2 NPs are positively charged, the CCC decrease with the increased divalent anions (act as counter ions) concentration in the media, again in good agreement with the DLVO theory. 
Titania nanoparticles; Ecotoxicological media; Charge; Aggregation