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Arnold School of Public Health

Publications

 

  1. Nabi Md M, Wang J, Meyer M, Croteau M, Ismail N, and Baalousha M*. Concentrations and size distribution of TiO2 and Ag engineered particles in five wastewater treatment plants in the Unites States. Sci. Tot. Environ. 753 (2021) 142017
  2. Nabi Md M, Wang J, Meyer M, Croteau M, Ismail N, and Baalousha M*. Concentrations and size distribution of TiO2 and Ag engineered particles in five wastewater treatment plants in the Unites States. Sci. Tot. Environ. 753 (2021) 142017
  3. Sikder M, Wang J, Poulin B A, Tfaily M.M., and Baalousha M*. Nanoparticle size and natural organic matter composition determine aggregation behavior of platinum nanoparticles. Environ. Sci. Nano. 2020
  4. Baalousha M*, Wang J, Nabi Md M, Loosli F, Valenca R., Mohanty S K, Afrooz N, Cantando E, Aich N. Stormwater green infrastructure retain high concentrations of TiO2 engineered (nano)-particles. J. Hazard. Mat. 392 (2020) 122335.
  5. Wang J, Nabi MD M, Mohanty S K, Afrooz ARM N, Contado E, Aich N, and Baalousha M*. Detection and quantification of engineered particles in urban runoff. Chemosphere. 248 (2020) 126070.
  6. Loosli F, Sikder M, Wang J, Afshinnia J, and Baalousha M*. Analysis of Ag and CeO2 engineered nanomaterials in surface waters and soils at environmentally relevant concentrations. Sci. Tot. Environ. 716 (2020) 136927.
  7. Yi Z, Loosli F, Wang J, Berti D, and Baalousha M*. How to distinguish natural versus engineered nanomaterials: insights from analysis of TiO2 and CeO2 in soils. Environ. Chem. Lett. 18 (2020) 215-227
  8. Hall E R, Wickes L, Burnett L E, Scott G I, Hernandez D, Yates K K, Barbero L, Reimer J J, Baalousha M, Bennett-Mintzm J, Cai W, Craig K, DeVoe M R, Fisher W S, Hathaway T K, Jewett E B, Johnson Z, Keener P, Mordecai R S, Noakes S, Phillips C, Sandifer P A, Schnetzer A, and Styron J. Acidification in the U.S. Southeast: causes, potential consequences and the role of the Southeast Ocean and Coastal Acidification Network. Frontiers in Marine Science. 7 (2020) 548:1-11.
  9. Saharia A, Zhu Z, Aich N, Baalousha M, Atkinson J F. Modeling the transport of titanium dioxide nanoparticles from combined sewer overflows in an urban river. Sci. Tot. Environ. 696 (2019) 133904
  10. Loosli F, Yi Z, Wang J, and Baalousha M*. Dispersion and analysis of natural nanomaterials in surface waters as new step towards quantification of engineered nanomaterial in environmental systems. Sci.Tot.Environ. 682 (2019) 663-672.
  11. Loosli F, Yi Z, Wang J, Berti D, and Baalousha M*. Improved extraction efficiency of natural nanomaterials to facilitate their characterization using a multimethod approach. Sci. Tot. Environ. 677 (2019) 34-36
  12. Loosli F, Wang J, Rothenberg S, Bizimis M, Winkler C, Borovinskaya O, Flamingni L, and Baalousha M*. Sewage spills are a major source of engineered titanium dioxide release into the environment. Environ. Sci. Nano. 6 (2019) 763-777.
  13. Baalousha M*, Motelica-Heino M, Guiges N, Braibant G and Le Coustumer P. Suspended particulate matter determines physical speciation of Fe, Mn, and trace metals in surface waters of the Loire watershed. Sci.Pollut.Res. 26 (2019) 5251-5266.
  14. Sikder M, Wang J, Chandler G.T., Berti D and Baalousha M*. Synthesis, Characterization, and Environmental Behaviors of Monodispersed Platinum Nanoparticles. Colloid.Surf.Sci. 540 (2019) 330-341.
  15. Saeed H, Hartland A, Lehto N, Baalousha M, Sikder M, Sandwell D, Mucalo M, and Hamilton DP. Dynamic redox cycling of nano-scale iron and phosphorus in a monomictic lake: a combined DGT and ultrafiltration approach. Sci.Rep. 8 (2018) 17736
  16. Emmons A M, Bizimis M, Lang S Q, Stangler W, Geidel G, Wanamaker E, Baalousha M, Rothenberg S E. Enrichments of metals, including methylmercury, in sewage spills in South Carolina, USA. J.Environ.Monit. 47 (2018) 1258-1266.
  17. Loosli F, Yi Z, Berti D, and Baalousha M*. Toward a better extraction of titanium dioxide engineered nanomaterials from complex environmental matrices. Nanoimpact. 11 (2018) 119-127.
  18. Sikder M, Eudy E, Chandler D T, and Baalousha M*. Comparative study of dissolved and nanoparticulate Ag effects on the life cycle effect of an estuarine meiobenthic copepode, Amphiascus tenuiremis. Nanotoxicol. 12 (2018) 375-389.
  19. Yan C, Liu H, Huang X, Sheng Y, Nie M, Baalousha M*. Fluorescence characterization of fractionated colloidal organic matter in the five tributaries of Poyang Lake, China. Sci.Tot.Environ. 637-638 (2018) 1311-1320.
  20. Baalousha M*, Afshinnia K, and Guo L. Natural organic matter composition determines the molecular nature of nanomaterial NOM-corona. Environ. Sci. Nano. 5 (2018) 868-881.
  21. Kamrani S, Rezaei M, Kord M, and Baalousha M*. Co-transport and remobilization of Cu and Pb in quartz column by carbon dots. Sci.Tot.Environ. 626 (2018) 995-1004.
  22. Kamrani S, Rezaei M, Kord M, and Baalousha M*. Transport and Retention of Carbon dots (CDs) in Saturated and Unsaturated Porous Media: role of ionic strength, pH, and collector grain size. Wat. Res. 133 (2018) 338-347.
  23. Afshinnia A, Marrone B, and Baalousha M*. Potential impact of natural organic ligands structure on the colloidal stability of silver nanoparticles. Sci. Tot. Environ. 625 (2018) 1518-1526.
  24. Sikder M, Lead J R, Chandler G T, and Baalousha M*. A rapid approach for measuring silver nanoparticle concentration and dissolution in seawater by UV-Vis. Sci. Tot. Environ. 618 (2018) 597-607.
  25. Ellis L-J, Baalousha M*, Valsami-Jones E, and Lead J R. Seasonal Variability of Natural Water Chemistry affects the Fate and Behaviour of Silver Nanoparticles. Chemosphere. 191 (2018) 616-625.
  26. Mirzaei Aminiyan M, Mirzaei Aminiyan F, Baalousha M. Evaluation of human health risk based on EPA modeling for adults and children and pollution level of potentially toxic metals in Rafsanjan road dust: a case study in a semi-arid region, Iran. Sci. Pollut. Res 2017 25 (2018) 19767-19778.
  27. Mirzaei Aminiyan M, Baalousha M, Mousavi R, Mirzaei Aminiyan F, Hosseini H and Heydariyan A. The ecological risk, source identification, and pollution assessment of heavy metals in road dust: a case study in Rafsanjan, SE Iran. Environ.Sci.Pollut.Res. 25 (2018) 13382-13395.
  28. Mitra C, Gummadidala P. Afshinnia K, Merrifield R, Baalousha M, Lead, J, and Chanda, A. Citrate-coated silver nanoparticles growth- independently inhibit aflatoxin synthesis in “Aspergillus parasiticus”. Environ. Sci. Technol. 51 (2017) 8085-8093.
  29. Park C M, Chu K H, Herb N, Jang M, Baalousha M, Heo J, Yoon Y. Occurrence and removal of engineered nanoparticles in drinking water treatment and wastewater treatment processes. Separ. Purif. Rev. 46 (2017) 255-272.
  30. Afshinnia K and Baalousha M*. Effect of phosphate buffer on aggregation kinetics of citrate-coated silver nanoparticles induced by monovalent and divalent electrolytes. Sci.Tot.Environ. 581-582 (2017) 268-276.
  31. Afshinnia K, Sikder M, Cai B and Baalousha M*. Effect of nanomaterial and media physicochemical properties on Ag NM aggregation kinetics. J. Colloid Interf. Sci. 487 (2017) 192-200.
  32. Baalousha M*. Effect of nanomaterial and media physicochemical properties on nanomaterial aggregation kinetics. Nanoimpact. 6 (2017) 55-68
  33. Ghulam R, Amjad M, Kaur I, Baalousha M, Lead J R and Wen D. Stability and aggregation kinetics of titania nanoparticles under environmentally realistic conditions. Environ. Sci. Technol. 50 (2016) 8462-8472.
  34. Ellis L A, Valsami-Jones E, Lead J R, and Baalousha M*. Impact of Surface Coating and Environmental Conditions on the Fate and transport of Silver Nanoparticles in the Aquatic Environment. Sci. Tot. Environ. 568 (2016) 95-106.
  35. Baalousha M*, Yang Y, Vance M E, Coleman B, McNeal S, Xu J, Blaszczak J, Steele M, Bernhardt E, and Hochella M F. Outdoor Urban Nanomaterials: The Immergence of a New, Integrated, and Critical Field of Study. Sci.Tot.Environ. 557-558 (2016)740-753.
  36. Afshinnia K, Gibson I, and Merrifield R and Baalousha M*. The concentration-dependent aggregation of Ag NPs induced by cysteine. Sci.Tot.Environ. 557 (2016) 395-403.
  37. Baalousha M*, Cornelis G, Kuhlbusch TAJ, Lynch I, Nickel C, Peijnenburg W, and van den Brink NW. Modeling Nanomaterial Fate and Uptake in the Environment: Current Knowledge and Future Trends. Environ. Sci. Nano. 3 (2016) 323-345.
  38. Yan C, Nie M, Yang Y, Zhou J, Merrifield R, Lead J R, and Baalousha M*. Application of multi-method approach in characterization of natural aquatic colloids from different sources along Huangpu River in Shanghai, China. Sci.Tot.Environ. 554 (2016) 228-236.
  39. Baalousha M*, Sikder M, Prasad A, Lead J R, Merrifield R, Chandler G T. The concentration-dependent behavior of nanoparticles. Environ. Chem. 13 (2016) 1-3.
  40. Hartland A, Larsen J R, Andersen M, Baalousha M, O'Carroll D M. Arsenic and phosphorus association with iron nanoparticles between streams and aquifers: implications for arsenic mobility. Environ.Sci.Technol. (2015) 14101-14109.
  41. Nowack B, Baalousha M, Bornhöft N, Chaudhry Q, Cornelis G, Cotterill J, Gondikas A, Hassellöv M, Lead J R, Mitrano D M, von der Kammer F, Wontner-Smith Progress toward validation of modeled environmental concentrations of engineered nanomaterials by analytical measurements. Environ. Sci. Nano. 5 (2015) 421-428.
  42. Rhys M, Goodhead R M, Johnston B D, Cole P A, Baalousha M, Hodgson D, Iguchi T, Lead J R, Tyler C R. Does Natural Organic Matter Increase Bioavailability of Cerium Dioxide Nanoparticles to Fish? Environ. Chem. 12 (2015) 673-682.
  43. Prasad A, Lead J R, and Baalousha M*. An electron microscopy based method for the detection and quantification of nanomaterial number concentration in environmentally relevant media. Sci. Tot. Environ. 537 (2015) 479-486.
  44. Nur Y, Lead J R and Baalousha M*. Evaluation of charge and aggolomeration behavior of TiO2 nanoparticles in ecotoxicologicval media. Sci. Tot. Environ. 535 (2015) 45-53.
  45. Yan C, Nie M, Yang Y, Zhou J, Liu M, Baalousha M and Lead J R. Effect of colloids on the occurrence, distribution and photolysis of emerging organic contaminants in wastewaters. J.Hazard. Mater. 15 (2015) 241-248.
  46. Peijnenburg W J G M, Baalousha M, Chen J, Chaudry Q, Von Der Kammer F, Kuhlbusch T A J, Lead J, Nickel C, Quik J T K, Renker M, Wang Z, Koelmans A A. A review of the properties and processes determining the fate of engineered nanomaterials in the aquatic environment. Crit. Rev. Environ. Sci. Technol. 45 (2015) 2048-2134.
  47. Dale A, Casman E, Lowery G, Lead J R, Viparelli E and Baalousha M*. Modeling nanomaterial environmental fate in aquatic systems. Environ. Sci. Technol. 49 (2015) 2587-2593.
  48. Baalousha M*, Arkill K P, Romer I, Palmer R E and Lead J R. Transformations of Citrate and Tween coated Silver Nanoparticles reacted with Na2S: Sci.Tot.Environ. 502 (2015) 344-353.
  49. Baalousha M*, Prasad A, and Lead J R. Quantitative measurement of the nanoparticle size and number concentration from liquid suspensions by atomic force microscopy: Environ.Sci.Process.Impact. 16 (2014) 1338-1347.
  50. Baalousha M* and Lead J R. Nanoparticle dispersity in toxicology. Nat. Nanotechnol. 5 (2013) 308-309.
  51. Baalousha M*, Nur Y, Römer I, Tejamaya M and Lead J R. Effect of monovalent and divalent cations, anions and fulvic acid on aggregation of citrate-coated silver nanoparticles. Sci. Tot. Environ. 454-455 (2013) 119.
  52. Baalousha M* and Lead J R. Characterisation of natural and manufactured nanoparticles by atomic force microscopy: effect of analysis mode, environment and sample preparation. Colloid Surf.A. 419 (2013) 238-247.
  53. Osborne O J, Johnston B D, Moger J, Baalousha M, Lead J R, Kudoh T and Tyler C R. Effects of particle size and coating on nanoscale Ag and TiO2 exposure in zebrafish (Danio rerio) embryos. Nanotoxicol. (2013) 1315-1324.
  54. Baalousha M* and Lead J R. Rationalising nanomaterial sizes measured by AFM, FlFFF and DLS: sample preparation, polydispersity and particle structure. Environ.Sci.Technol. 46 (2012).6134-6142.
  55. Baalousha M*, Ju-Nam Y, Cole P, Tyler C R, Stone V, Fernandes T, Jepson M A and Lead J R. Characterization of cerium oxide nanoparticles: part I: size measurement. Environ.Toxicol.Chem. 31 (2012) 983-993.
  56. Baalousha M*, Ju-Nam Y, Cole P, Tyler C R, Stone V, Fernandes T, Jepson M A and Lead J R. Characterization of cerium oxide nanoparticles: part II: nonsize measurements. Environ.Toxicol.Chem. 31 (2012) 994-1004.
  57. Hartland A, Fairchild I J, Lead, J R, Borsato A, Baker A, Frisia S and Baalousha M. From soil to cave: Colloid-facilitated transport of trace metals in speleothem-forming groundwaters. Chem. Geol. 304 (2012) 68-82.
  58. Gaiser B K, Fernandes T F, Jepson M A, Lead J R, Tyler C R, Baalousha M, Biswas A, Britton G, Cole P, Johnston B, Ju-Nam Y, Rosenkranz P, Scown T and Stone V. Interspecies comparisons on the uptake and toxicity of silver and cerium dioxide nanoparticles. Environ.Toxicol.Chem. 31 (2012) 144-154.
  59. Baalousha M*, Stolpe B and Lead J R. Field flow fractionation analysis for the characterization of natural and manufactured nanoparticles: critical review. J.Chromatogr.A. 27 (2011) 4078-4103.
  60. Romer I, White T A, Baalousha M, Chipman K, Viant M R and Lead J R. Aggregation and dispersion of silver nanoparticles in exposure media for aquatic toxicity tests. J. Chromatogr.A. 27 (2011) 4226-4233.
  61. Hartland A, Fairchild I J, Lead J R, Zhang H, Baalousha M and Phillips L. Size-speciation and lability of NOM-metal complexes in hyperalkaline cave dripwater. Geochim. Cosmochim. Acta. 75 (2011) 7533-7551.
  62. Johnston B D, Scown T M, Moger J, Cumberland S, Baalousha M, Linge K, van Aerle R, Jarvis K, Lead J R and Tyler C R. Limited bioavailability of nanoscale metal oxides, TiO2, CeO2, and ZnO to fish. Environ.Sci.Technol. 44 (2010) 1144-1151.
  63. Baalousha M*, Le Coustumer P, Jones I and Lead J.R. Characterization of structural and surface speciation of representative commercially available cerium oxide nanoparticles. Environ. Chem. 7 (2010) 377-385.
  64. Scown T M, Santos E, Johnston B D, Gaiser B, Baalousha M, Mitov S, Lead J R, Stone V, Fernandes T, Jepson M, van Aerle R and Tyler C R. Effects of Aqueous Exposure to Silver Nanoparticles of Different Sizes in Rainbow Trout. Toxicol. Sci. 115 (2010) 521-534.
  65. Scown T M, Goodhead R, Johnston B D, Moger J, Baalousha M, Lead J R, van Aerle R, Iguchi T and Tyler C R. Assessment of cultured fish hepatocytes for studying cellular uptake and (eco)toxicity of nanoparticles. Environ. Chem. 7 (2010) 36-49.
  66. Rogers N J, Franklin N M, Apte S C, Batley G E, Lead J R and Baalousha M. Physico-chemical behaviour and toxicity to algae of nanoparticulate CeO2 in freshwater. Environ.Chem. 7 (2010) 50-60.
  67. Hartmann N B, Von der Kammer F, Baalousha M, Ottofuelling S and Baun A. Algal testing of titanium dioxide nanoparticles – testing considerations, inhibitory effects and modification of cadmium bioavailability. Toxicol. 269 (2010) 190-197.
  68. Hartland A, Fairchild I F, Lead J R, Dominguez-Villar D, Baker A, Gunn J, Baalousha M and Ju-Nam Y. The dripwaters and speleothems of Poole’s Cavern: a review of recent and ongoing research. Cave Karst Sci. 36 (2010) 37-46.
  69. Baalousha M*. Aggregation and disaggregation of iron oxide nanoparticles; influence of particles concentration, pH and natural organic matter. Sci.Tot.Environ. 407 (2009) 2093-2101.
  70. Batchelli S, Muller F L L, Baalousha M and Lead J R. Size fractionation and optical properties of colloids in an organic-rich estuary (Thurso, UK). Marine Chem. 113 (2009) 227-237.
  71. Domingos R F, Baalousha M, Ju-Nam Y, Reid M, Tufenkji N, Lead J R, Leppard G G and Wilkinson K J. Characterizing manufactured nanoparticles in the environment- multimethod determination of particle sizes. Environ.Sci.Technol. 43 (2009) 7277-7284.
  72. Baalousha M, Manciulea A, Cumberland S, Kendall K and Lead J R. Aggregation and surface properties of iron oxide nanoparticles; influence of pH and natural organic matter. Environ. Toxicol. Chem. 27 (2008) 1875-1882.
  73. Christian P. von der Kammer F, Baalousha M and Hofmann Th. Nanoparticles: preparation, properties and behaviour in environmental media. Ecotoxicol. 17 (2008) 326-343.
  74. Baalousha M and Lead J R. Characterization of natural aquatic colloids (< 5 nm) by flow field flow fractionation and atomic force microscopy. Environ. Sci. Technol. 41 (2007) 1111-1117.
  75. Baalousha M and Lead J R. Characterization and Size fractionation and characterization of natural aquatic colloids and nanoparticles. Sci. Tot. Environ. 386 (2007)93-102.
  76. Baalousha M*, Motelica-Heino M, Baborowski M, Hofmeister C and Le Coustumer P. Size based speciation of natural colloidal particles by Flow Field Flow Fractionation-Inductively Coupled Plasma-Mass Spectroscopy- Transmission Electron Microscopy/X-Energy Dispersive Spectroscopy: colloids-trace element interaction. Environ.Sci.Technol. 40 (2006) 2156-2162.
  77. Baalousha M*, v.d.Kammer F, Motelica-Heino M, Hilal H and Le Coustumer P. Size fractionation and characterization of natural colloids by Flow-Field Flow Fractionation coupled to Multi-Angle Laser Light Scattering. J.Chromatogr. 1104 (2006) 272-281.
  78. Baalousha M*, Motelica-Heino M and Le Coustumer P. Conformation and size of humic substances: Effects of major cation concentration and type, pH, salinity and residence time. J.Colloids. Surf. A. Phys. Engin.Asp. 272 (2006) 48-55.
  79. Baalousha M*, v.d.Kammer F, Motelica-Heino M and Le Coustumer P. Natural sample fractionation by FlFFF-MALLS-TEM: sample stabilization, preparation, pre-Concentration and Fractionation. J.Chromatogr. 1093 (2005) 156-166.
  80. Baalousha M*, v.d.Kammer F, Motelica-Heino M and Le Coustumer P. 3D characterization of natural colloids by FlFFF-MALLS -TEM. Anal.Bioanal.Chem. 383 (2005) 549-560.
  81. Baalousha M*, Motelica-Heino M, Galaup S and Le Coustumer P. Supramolecular structure of humic acids by TEM with improved sample preparation and staining. Res.Microsc.Tech. 66 (2005) 299-306.

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