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Harper Lab Publications and Presentations

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2022
Cunningham B, Harper B, Brander S, Harper S.  2022.  Toxicity of micro and nano tire particles and leachate for model freshwater organisms.. J Hazard Mater. 429:128319.
2021
Shupe HJ, Boenisch KM, Harper BJ, Brander SM, Harper SL.  2021.  Effect of Nanoplastic Type and Surface Chemistry on Particle Agglomeration over a Salinity Gradient.. Environ Toxicol Chem. 40(7):1822-1828.
Shupe HJ, Boenisch KM, Harper BJ, Brander SM, Harper SL.  2021.  Effect of Nanoplastic Type and Surface Chemistry on Particle Agglomeration over a Salinity Gradient.. Environ Toxicol Chem. 40(7):1822-1828.
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)
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)
Olsen MRose, Colliard I, Rahman T, Miyaishi TC, Harper B, Harper S, Nyman M.  2021.  Hybrid Polyoxometalate Salt Adhesion by Butyltin Functionalization.. ACS Appl Mater Interfaces. 13(16):19497-19506.
Olsen MRose, Colliard I, Rahman T, Miyaishi TC, Harper B, Harper S, Nyman M.  2021.  Hybrid Polyoxometalate Salt Adhesion by Butyltin Functionalization.. ACS Appl Mater Interfaces. 13(16):19497-19506.
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.
Stine JS, Harper BJ, Conner CG, Velev OD, Harper SL.  2021.  In Vivo Toxicity Assessment of Chitosan-Coated Lignin Nanoparticles in Embryonic Zebrafish ().. Nanomaterials (Basel). 11(1)
Stine JS, Harper BJ, Conner CG, Velev OD, Harper SL.  2021.  In Vivo Toxicity Assessment of Chitosan-Coated Lignin Nanoparticles in Embryonic Zebrafish ().. Nanomaterials (Basel). 11(1)
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.
Almurshidi BH, Van Court RC, Gutierrez SMVega, Harper S, Harper B, Robinson SC.  2021.  Preliminary Examination of the Toxicity of Spalting Fungal Pigments: A Comparison between Extraction Methods.. J Fungi (Basel). 7(2)
Almurshidi BH, Van Court RC, Gutierrez SMVega, Harper S, Harper B, Robinson SC.  2021.  Preliminary Examination of the Toxicity of Spalting Fungal Pigments: A Comparison between Extraction Methods.. J Fungi (Basel). 7(2)
Cunningham B, Engstrom AM, Harper BJ, Harper SL, Mackiewicz MR.  2021.  Silver Nanoparticles Stable to Oxidation and Silver Ion Release Show Size-Dependent Toxicity In Vivo.. Nanomaterials (Basel). 11(6)
Cunningham B, Engstrom AM, Harper BJ, Harper SL, Mackiewicz MR.  2021.  Silver Nanoparticles Stable to Oxidation and Silver Ion Release Show Size-Dependent Toxicity In Vivo.. Nanomaterials (Basel). 11(6)
2020
Crandon LE, Boenisch KM, Harper BJ, Harper SL.  2020.  Adaptive methodology to determine hydrophobicity of nanomaterials in situ.. PLoS One. 15(6):e0233844.
Crandon LE, Boenisch KM, Harper BJ, Harper SL.  2020.  Adaptive methodology to determine hydrophobicity of nanomaterials in situ.. PLoS One. 15(6):e0233844.
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.
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)
Engstrom AM, Faase RA, Marquart GW, Baio JE, Mackiewicz MR, Harper SL.  2020.  Size-Dependent Interactions of Lipid-Coated Gold Nanoparticles: Developing a Better Mechanistic Understanding Through Model Cell Membranes and in vivo Toxicity.. Int J Nanomedicine. 15:4091-4104.
2019
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.
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.
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.

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