Publications

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[ Type(Desc)] Year
Book Chapter
B. Kim and Hochella, M. F. , Analytical Transmission Electron Microscopy and Scanning Transmission Electron Microscopy Techniques for the Characterization of Nanomaterial Composition, Phase and Crystallinity, in Frontiers of Nanoscience, Characterization of Nanomaterials in Complex Environmental and Biological Media, vol. 8, Elsevier, 2015, pp. 123 - 152.
J. D. Judy and Bertsch, P. M. , Bioavailability, Toxicity, and Fate of Manufactured Nanomaterials in Terrestrial Ecosystems, in Advances in Agronomy, vol. 123, Elsevier, 2014, pp. 1 - 64.
R. P. Appelbaum, Parker, R. , Cao, C. , and Gereffi, G. , China's (Not So Hidden) Developmental State: Becoming a Leading Nanotechnology Innovator in the Twenty-First Century, in State of Innovation: The U.S. Government's Role in Technology Development, F. Block and Keller, M. R. , Eds. Boulder, CO: Paradigm Publishers, 2011, pp. 217-235.
L. L. Maurer, Ryde, I. T. , Yang, X. , and Meyer, J. N. , Current Protocols in Toxicology Caenorhabditis elegans as a Model for Toxic Effects of Nanoparticles: Lethality, Growth, and Reproduction, in Current Protocols in Toxicology, L. G. Costa, Davila, J. C. , Lawrence, D. A. , and Reed, D. J. , Eds. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2015, pp. 20.10.1 - 20.10.25.
L. L. Maurer, Luz, A. L. , and Meyer, J. N. , Detection of mitochondrial toxicity of environmental pollutants using Caenorhabditis elegans, in Mitochondrial Dysfunction by Drugs and Environmental Toxicants, J. A. Dykens and Will, Y. , Eds. Wiley, 2018, pp. 655-689.
M. Auffan, Santaella, C. , Thiery, A. , Pailles, C. , Rose, J. , Achouak, W. , Thill, A. , Masion, A. , Wiesner, M. R. , and Bottero, J. - Y. , Ecotoxicity of inorganic nanoparticles: from unicellular organisms to invertebrates, in Encyclopedia of Nanotechnology, Springer, 2012.
M. Auffan, Flahaut, E. , Thill, A. , Mouchet, F. , Carrière, M. , Gauthier, L. , and Achouak, W. , Ecotoxicologie: réactivité vis-à-vis des organismes vivants, in Nanotoxicologie et Nanoéthique, vol. 4, F. Marano, Lahmani, M. , and Houdy, P. , Eds. Berlin: Paris: , 2009.
C. Mouneyrac, Unrine, J. M. , Giamberini, L. , Tsyusko, O. V. , Santaella, C. , DiGiulio, R. T. , and Schwab, F. , Ecotoxicology principles for manufactured nanomaterials, in Environmental Nanotechnology: Applications and Impacts of Nanomaterials, 2ndnd ed., M. Weisner and Bottero, J. - Y. , Eds. New York: McGraw Hill Education, 2017, pp. 141-172.
M. Auffan, Flahaut, E. , Thill, A. , Mouchet, F. , Carrière, M. , Gauthier, L. , and Achouak, W. , Ecotoxicology: reactivity toward living organisms, in Nanotoxicology and Nanoethics, vol. 4, F. Marano, Lahmani, M. , and Houdy, P. , Eds. Springer, 2011.
P. Tratnyek, Johnson, R. , Lowry, G. V. , and Brown, D. , In situ Chemical Reduction in Contaminant Source Zones, in Chlorinated Solvent Source Zone Remediation, vol. 7, B. H. Kueper, Stroo, H. F. , and Ward, C. H. , Eds. New York: Springer, 2014.
J. Labille, Masion, A. , and Wiesner, M. R. , Modèles de cycles de vie, in Nanotoxicologie et Nanoéthique, vol. 4, F. Marano, Lahmani, M. , and Houdy, P. , Eds. Paris: Belin, 2010.
T. Kuiken, Quadros, M. E. , McGinnis, S. , and Hull, M. , NanoengineeringPublic's Understanding, Perceptions, and Acceptance of Nanotechnology through the Lens of Consumer Products, in Cover image Nanoengineering , Elsevier, 2015, pp. 151 - 171.
G. V. Lowry and Casman, E. A. , Nanomaterial Transport, Transformation, and Fate in the Environment, in Nanomaterials: Risks and Benefits, I. Linkov and Steevens, J. , Eds. Dordrecht: Springer Netherlands, 2009, pp. 125-137.
G. V. Lowry and Casman, E. A. , Nanomaterial Transport, Transformation, and Fate ion the Environment: A Risk-based Perspective on Research Needs., in Risk, Uncertainty and Decision Analysis for Nanomaterials: Environmental Risks and Benefits and Emerging Consumer Products, I. Linkov and Steevens, J. , Eds. Springer Netherlands, 2009, pp. 125-139.
B. Kim, Richardson, C. J. , Murayama, M. , and Hochella, M. F. , Nanoscale Analytical Transmission Electron Microscopy Techniques Applicable to Wetland Research and Monitoring, in Methods of Wetland Biogeochemistry, Madison, Wisconsin: Soil Science Society of America, Inc., 2013, pp. 857-878.
M. S. Hull, Quadros, M. E. , Born, R. , Provo, J. , Lohani, V. K. , and Mahajan, R. L. , Nanotechnology Environmental Health and SafetySustainable Nanotechnology, Elsevier, 2014, pp. 395-424.
E. M. Hotze and Lowry, G. V. , Nanotechnology for sustainable water treatment, in Sustainable Water, R. E. Hester and Harrison, R. M. , Eds. Cambridge (UK): RSC Publishing, 2010.
M. F. Hochella, Aruguete, D. M. , Kim, B. , and Madden, A. S. , Naturally occurring inorganic nanoparticles: General assessment and a global budget for one of Earth's last unexplored geochemical components, in Nature's Nanostructures, 1st ed., H. Guo and Barnard, A. , Eds. Victoria, Australia: Pan Stanford Publishing, 2012.
D. Avery, Hendren, C. O. , Wiesner, M. R. , Nel, A. E. , Lowry, G. V. , Hull, M. S. , and Savage, N. , The NSF-EPA Centers for the Environmental Implications of Nanotechnology: What They Taught Us, in Nanotechnology Environmental Health and Safety: Risks, Regulation and Management, 3rdrd ed., 2018, pp. 151 - 168.
Y. Cheng, Zhang, H. , Lu, S. , Zhan, S. , Varanasi, C. , and Liu, J. , One-Pot Synthesis of Functionalized Few-Walled Carbon Nanotube/MnO2 Composite for High Performance Electrochemical Supercapacitors, in Materials Challenges in Alternative and Renewable Energy II: Ceramic Transactions, Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013, pp. 271 - 281.
T. Phenrat and Lowry, G. V. , Physicochemistry of Polyelectrolyte Coatings that Increase Stability, Mobility, and Contaminant Specificity of Reactive Nanoparticles used for Groundwater Remediation., in Nanotechnology Applications for Clean Water, M. Diallo, Duncan, J. , Savage, N. , Street, A. , and Sustich, R. , Eds. Elsevier, 2008.
T. Phenrat, Crimi, M. , Illagasekare, T. , and Lowry, G. V. , Reactive Nanoparticles for the Treatment of Chlorinated Dense Nonaqueous Phase Liquids in Soil and Groundwater, in Nanotechnology For Environmental Decontamination, McGraw-Hill, 2011.
M. Auffan, Rose, J. , Chaneac, C. , Jolivet, J. P. , Wiesner, M. R. , and Bottero, J. - Y. , Réactivité de surface des nanoparticules manufacturees, in Nanotoxicologie et Nanoéthique, vol. Tome 4, F. Marano, Lahmani, M. , and Houdy, P. , Eds. Paris: Belin, 2010.
D. Arndt and Unrine, J. M. , Redox interactions between nanomaterials and biological systems, in Oxidative Stress and Biomaterials, Philadelphia: Elsevier, 2016, pp. 187-206.
D. M. Aruguete, Liu, J. , and Hochella, M. F. , Size/Shape–Property Relationships of Non-Carbonaceous Inorganic Nanoparticles and Their Environmental Implications, in Environmental and Human Health Impacts of Nanotechnology, J. R. Lead and Smith, E. , Eds. Chichester, UK: John Wiley & Sons, Ltd, 2009, pp. 79 - 108.
M. Auffan, Rose, J. , Chaneac, C. , Jolivet, J. P. , Wiesner, M. R. , and Bottero, J. - Y. , Surface reactivity of manufactured nanoparticles, in Nanotoxicology and Nanoethics, vol. Tome 4, F. Marano, Lahmani, M. , and Houdy, P. , Eds. Springer, 2011.
S. M. Louie, Ma, R. , and Lowry, G. V. , Transformations of nanomaterials in the environment, in Nanoscience and the Environment, 1st ed., E. Valsami-Jones and Lead, J. , Eds. Elsevier, 2014.
T. Phenrat, Schoenfelder, D. , Losi, M. , Yi, J. , Peck, S. A. , and Lowry, G. V. , Treatability Study for a TCE Contaminated Area using Nanoscale- and Microscale-Zerovalent Iron Particles: Reactivity and Reactive Life Time, in Environmental Applications of Nanoscale and Microscale Reactive Metal Particles, vol. 1027, American Chemical Society, 2009, pp. 183-202.
Conference Paper
A. J. Bertuccio and Tilton, R. D. , Bacterial colonization on silver nanoparticle coated surfaces is dependent on inoculum and natural organic matter concentrations, in Sustainable Nanotechnology Organization Coonference, Portland, OR, 2015.
A. J. Bertuccio and Tilton, R. D. , Natural organic matter increases bacterial tolerance to silver nanoparticles, in American Chemical Society Colloid and Surface Science Symposium, Pittsburgh, PA, 2015.
A. M. Kiss, Jew, A. D. , Joe-Wong, C. , Maher, K. M. , Liu, Y. , Brown, Jr, G. E. , and Bargar, J. , SPIE ProceedingsSynchrotron-based transmission x-ray microscopy for improved extraction in shale during hydraulic fracturing, in SPIE Optical Engineering + ApplicationsX-Ray Nanoimaging: Instruments and Methods II, San Diego, California, United States, 2015.
Conference Proceedings
M. E. Quadros and Marr, L. C. , Aerosol emissions from silver nanotechnology consumer products, American Association for Aerosol Research 30th Annual Conference. Orlando, FL, 2011.
C. L. Arnaout and Gunsch, C. K. , Impacts of silver nanoparticles on the growth and composition of microbial communities found in wastewater, WEFTEC, Los Angeles, CA (October 15-19, 2011). 2011.
C. L. Arnaout and Gunsch, C. K. , Measuring the antibacterial impacts of silver nanoparticles, Association of Environmental Engineering and Science Professors Meeting, Tampa, FL (July 10-12, 2011). 2011.
N. J. Kabengi, Turcotte, K. , and Bertsch, P. M. , Molar enthalpy of ion exchange comparisons between bulk and nano-crystalline TiO2. , Annual . San Antonio, Texas, 2011.
A. Tiwari, Davis, E. D. , Zhang, Y. , Morris, J. R. , and Marr, L. C. , Oxidation of C60 aerosol by ozone, European Aerosol Conference. Manchester, UK, 2011.
N. J. Kabengi, Woodson, M. , Karathanasias, T. , and Bertsch, P. M. , The Role of Water Dispersible Clays in the Transport of Silver Nanoparticles from Terrestrial Ecosystems., Annual Meetings of the Soil Science Society of America. Long Beach, CA, 2010.
J. M. Gernand and Casman, E. A. , Selecting Nanoparticle Properties to Mitigate Risks to Workers and the Public – A Machine Learning Modeling Framework to Compare Pulmonary Toxicity Risks of Nanomaterials, IMECE2013, vol. No. 62687. 2013.
A. Holder and Marr, L. C. , Size selected nanoparticle toxicity at the air-liquid interface, American Association for Aerosol Research 30th Annual Conference. Orlando, FL, 2011.
R. Malaisamy, Talla, A. , and Jones, K. L. , Surface modification of polyamide nanofiltration membrane by electrostatic self assembly of polyelectrolyte multilayers for selective monovalent ion remvoval, Howard University 2nd Annual Nanotechnology Symposium, no. 3. Washington, DC, 2008.
Journal Article
A. L. Dale, Lowry, G. V. , and Casman, E. A. , Accurate and fast numerical algorithms for tracking particle size distributions during nanoparticle aggregation and dissolution, Environmental Science: NanoEnvironmental Science: Nano, vol. 4, pp. 89-104, 2016.
A. L. Dale, Lowry, G. V. , and Casman, E. A. , Accurate and fast numerical algorithms for tracking particle size distributions during nanoparticle aggregation and dissolution, Environmental Science: NanoEnvironmental Science: Nano, vol. 4, pp. 89-104, 2017.
M. Auffan, Tella, M. , Santaella, C. , Brousset, L. , Paillès, C. , Barakat, M. , Espinasse, B. , Artells, E. , Issartel, J. , Masion, A. , Rose, J. , Wiesner, M. R. , Achouak, W. , Thiéry, A. , and Bottero, J. - Y. , An adaptable mesocosm platform for performing integrated assessments of nanomaterial risk in complex environmental systems, Scientific Reports, vol. 4, 2014.
T. Phenrat, Liu, Y. , Tilton, R. D. , and Lowry, G. V. , Adsorbed Polyelectrolyte Coatings Decrease Fe0 Nanoparticle Reactivity with TCE in Water: Conceptual Model and Mechanisms, Environmental Science & Technology, vol. 43, pp. 1507-1514, 2009.
Z. Q. Li, Greden, K. , Alvarez, P. J. J. , Gregory, K. B. , and Lowry, G. V. , Adsorbed Polymer and NOM Limits Adhesion and Toxicity of Nano Scale Zerovalent Iron to E. coli, Environmental Science & Technology, vol. 44, pp. 3462-3467, 2010.
M. E. Vance, Pegues, V. , Van Montfrans, S. , Leng, W. , and Marr, L. C. , Aerosol emissions from fuse-deposition modeling 3D printers in a chamber and in real indoor environments, Environmental Science and TechnologyEnvironmental Science and Technology, vol. 51, pp. 9516-9523, 2017.

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