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Harper Lab Publications and Presentations

Author Title [ Type(Desc)] Year
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Journal Article
Wu F, Harper BJ, Crandon LE, Harper SL.  2020.  Assessment of Cu and CuO nanoparticle ecological responses using laboratory small-scale microcosms.. Environ Sci Nano. 7(1):105-115.
Lynch I, Afantitis A, Exner T, Himly M, Lobaskin V, Doganis P, Maier D, Sanabria N, Papadiamantis AG, Rybinska-Fryca A et al..  2020.  Can an InChI for Nano Address the Need for a Simplified Representation of Complex Nanomaterials across Experimental and Nanoinformatics Studies? Nanomaterials (Basel). 10(12)
Lynch I, Afantitis A, Exner T, Himly M, Lobaskin V, Doganis P, Maier D, Sanabria N, Papadiamantis AG, Rybinska-Fryca A et al..  2020.  Can an InChI for Nano Address the Need for a Simplified Representation of Complex Nanomaterials across Experimental and Nanoinformatics Studies? Nanomaterials (Basel). 10(12)
Wu F, Harper BJ, Harper SL.  2019.  Comparative dissolution, uptake, and toxicity of zinc oxide particles in individual aquatic species and mixed populations.. Environ Toxicol Chem. 38(3):591-602.
Teeguarden JG, Tan Y-M, Edwards SW, Leonard JA, Anderson KA, Corley RA, Kile ML, Simonich SM, Stone D, Tanguay RL et al..  2016.  Completing the Link between Exposure Science and Toxicology for Improved Environmental Health Decision Making: The Aggregate Exposure Pathway Framework. Environ Sci Technol.
Teeguarden JG, Tan Y-M, Edwards SW, Leonard JA, Anderson KA, Corley RA, Kile ML, Simonich SM, Stone D, Tanguay RL et al..  2016.  Completing the Link between Exposure Science and Toxicology for Improved Environmental Health Decision Making: The Aggregate Exposure Pathway Framework. Environ Sci Technol.
Wu F, Harper BJ, Harper SL.  2017.  Differential dissolution and toxicity of surface functionalized silver nanoparticles in small-scale microcosms: impacts of community complexity. Environmental Science: Nano. 4:359-372.
Seyedmahmoudi S.H, Harper S, Weismiller M.C, Haapala K.R.  2015.  Evaluating the use of zinc oxide and titanium dioxide nanoparticles in a metalworking fluid from a toxicological perspective. Journal of Nanoparticle Research. 17(2):1-12.
Patel I, Woodcock J, Beams R, Stranick SJ, Nieuwendaal R, Gilman JW, Mulenos MR, Sayes CM, Salari M, DeLoid G et al..  2021.  Fluorescently Labeled Cellulose Nanofibers for Environmental Health and Safety Studies.. Nanomaterials (Basel). 11(4)
Robinson RLiam March, Sarimveis H, Doganis P, Jia X, Kotzabasaki M, Gousiadou C, Harper SLynn, Wilkins T.  2021.  Identifying diverse metal oxide nanomaterials with lethal effects on embryonic zebrafish using machine learning.. Beilstein J Nanotechnol. 12:1297-1325.
Harper B.J, Sinche F., Wu R.H, Gowrishanker G., Marquart G., Mackiewiez M., Harper S.  2014.  The Impact of Surface Ligands and Synthesis Method on the Toxicity of Glutathione-Coated Gold Nanoparticles. Nanomaterials. 4:355-371.
Harper BJ, Clendaniel A, Sinche F, Way D, Hughes M, Schardt J, Simonsen J, Stefaniak AB, Harper S.  2016.  Impacts of chemical modification on the toxicity of diverse nanocellulose materials to developing zebrafish. Cellulose. 23(3)
Karcher S, Willighagen EL, Rumble J, Ehrhart F, Evelo CT, Fritts M, Gaheen S, Harper SL, Hoover MD, Jeliazkova N et al..  2018.  Integration among databases and data sets to support productive nanotechnology: Challenges and recommendations.. NanoImpact. 9:85-101.
Gousiadou C, Robinson RLMarchese, Kotzabasaki M, Doganis P, Wilkins TA, Jia X, Sarimveis H, Harper SL.  2021.  Machine learning predictions of concentration-specific aggregate hazard scores of inorganic nanomaterials in embryonic zebrafish.. Nanotoxicology. 15(4):446-476.
Harper S.  2015.  Measuring nanomaterial release from carbon nanotube composites: review of the state of the science. Journal of Physics: Conference Series. 617(1)
Wu F, Harper BJ, Marsh DA, Saha S, Diulus T, Amador JM, Keszler DA, Herman GS, Maddux BLS, Harper SL.  2019.  Monoalkyl Tin Nano-Cluster Films Reveal a Low Environmental Impact under Simulated Natural Conditions.. Environ Toxicol Chem. 38(12):2651-2658.
Qin M, Landriscina A, Rosen JM, Wei G, Kao S, Olcott W, Agak GW, Paz KB, Bonventre J, Clendaniel A et al..  2015.  Nitric Oxide-Releasing Nanoparticles Prevent Propionibacterium acnes-Induced Inflammation by Both Clearing the Organism and Inhibiting Microbial Stimulation of the Innate Immune Response. J Invest Dermatol. 135(11):2723-31.
Denluck L, Wu F, Crandon LE, Harper BJ, Harper SL.  2018.  Reactive oxygen species generation is likely a driver of copper based nanomaterial toxicity.. Environ Sci Nano. 5(6):1473-1481.
Niyaghi F., Haapala K.R, Harper S, Weismiller M.C.  2014.  Stability and Biological Responses of Zinc Oxide Metalworking Nanofluids (ZnO MWnF™) using Dynamic Light Scattering and Zebrafish Assays. Tribology Transactions. (57):730-739.
Wang R, Meredith AN, Lee M, Deutsch D, Miadzvedskaya L, Braun E, Pantano P, Harper S, Draper R.  2016.  Toxicity assessment and bioaccumulation in zebrafish embryos exposed to carbon nanotubes suspended in Pluronic® F-108.. Nanotoxicology. 10(6):689-98.
Wu F, Bortvedt A, Harper BJ, Crandon LE, Harper SL.  2017.  Uptake and toxicity of CuO nanoparticles to Daphnia magna varies between indirect dietary and direct waterborne exposures. Aquat Toxicol. 190:78-86.
Karcher SC, Harper BJ, Harper SL, Hendren COgilvie, Wiesner MR, Lowry GV.  2016.  Visualization tool for correlating nanomaterial properties and biological responses in zebrafish. Environmental Science: Nano. 3(6):1280-1292.

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