- Dr. Stacey Harper received a five-year, $3.3 million award from the National Science Foundation to study the risks of micro- and nanoplastics to aquatic organisms in the pacific northwest.
- Dr. Stacey Harper received a five-year, $1.9 million award as an Outstanding New Environmental Scientist (ONES) from the National Institute of Environmental Health Sciences (NIEHS) and was selected as 2013 recipient of the L.L. Stewart Faculty Scholars Award which recognizes an outstanding faculty members at Oregon State University.
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Harper Lab Publications and Presentations
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2015. Influence of surface chemical properties on the toxicity of engineered zinc oxide nanoparticles to embryonic zebrafish. Beilstein J Nanotechnol. 6:1568-79.
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2019. Comparative dissolution, uptake, and toxicity of zinc oxide particles in individual aquatic species and mixed populations.. Environ Toxicol Chem. 38(3):591-602.
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2020. Assessment of Cu and CuO nanoparticle ecological responses using laboratory small-scale microcosms.. Environ Sci Nano. 7(1):105-115.
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2017. Differential dissolution and toxicity of surface functionalized silver nanoparticles in small-scale microcosms: impacts of community complexity. Environmental Science: Nano. 4:359-372.
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2017. Uptake and toxicity of CuO nanoparticles to Daphnia magna varies between indirect dietary and direct waterborne exposures. Aquat Toxicol. 190:78-86.
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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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2014. Encyclopedia of Toxicology, 3rd edition. Encyclopedia of Toxicology. :5220.
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2016. Toxicity assessment and bioaccumulation in zebrafish embryos exposed to carbon nanotubes suspended in Pluronic® F-108.. Nanotoxicology. 10(6):689-98.
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2008. Fullerene C60 exposure elicits an oxidative stress response in embryonic zebrafish.. Toxicol Appl Pharmacol. 229(1):44-55.
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2007. In vivo evaluation of carbon fullerene toxicity using embryonic zebrafish.. Carbon N Y. 45(9):1891-1898.
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2011. Evaluation of embryotoxicity using the zebrafish model.. Methods Mol Biol. 691:271-9.
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2011. Informatics and standards for nanomedicine technology.. Wiley Interdiscip Rev Nanomed Nanobiotechnol.
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2013. ISA-TAB-Nano: a specification for sharing nanomaterial research data in spreadsheet-based format.. BMC Biotechnol. 13:2.
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2016. Completing the Link between Exposure Science and Toxicology for Improved Environmental Health Decision Making: The Aggregate Exposure Pathway Framework. Environ Sci Technol.
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2013. NEIMiner: nanomaterial environmental impact data miner.. Int J Nanomedicine. 8 Suppl 1:15-29.
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2010. Exposure assessment: recommendations for nanotechnology-based pesticides.. Int J Occup Environ Health. 16(4):467-74.
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2023. A Novel Approach for Identifying Nanoplastics by Assessing Deformation Behavior with Scanning Electron Microscopy.. Micromachines (Basel). 14(10)
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2021. In Vivo Toxicity Assessment of Chitosan-Coated Lignin Nanoparticles in Embryonic Zebrafish ().. Nanomaterials (Basel). 11(1)
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2023. Micron-size tire tread particles leach organic compounds at higher rates than centimeter-size particles: Compound identification and profile comparison.. Environ Pollut. 334:122116.
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2013. Advancement of the GoodNanoGuide: A compendium of best practices for the global nanotech community.. Nanotech. 2
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2015. Effect of pH and ionic strength on exposure and toxicity of encapsulated lambda-cyhalothrin to Daphnia magna. Sci Total Environ. 538:683-91.
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2019. Pesticide Encapsulation at the Nanoscale Drives Changes to the Hydrophobic Partitioning and Toxicity of an Active Ingredient.. Nanomaterials (Basel). 9(1)
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2022. Internalization, reduced growth, and behavioral effects following exposure to micro and nano tire particles in two estuarine indicator species.. Chemosphere. 296:133934.
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2021. Effect of Nanoplastic Type and Surface Chemistry on Particle Agglomeration over a Salinity Gradient.. Environ Toxicol Chem. 40(7):1822-1828.
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