 | Nanotech 2012 Vol. 3
Nanotechnology 2012: Bio Sensors, Instruments, Medical, Environment and Energy (Volume 3)
Chapter 5: Environmental Health & Safety |
| - | Quantifying the origin of nanosilver ions and their antibacterial activity |
| | G.A. Sotiriou, A. Meyer, J. Knijnenburg, S. Panke, S.E. Pratsinis |
| | Particle Technology Laboratory, ETH Zurich, CH |
| - | Nanomaterial Registry: An authoritative resource for assessing environmental and biological interactions of nanomaterials |
| | M.L. Ostraat, K. Mills, D. Murry, K. Guzan |
| | RTI International, US |
| - | Uptake and Elimination Behaviors of Polyethyleneimine (PEI)-Coated Multi-Walled Carbon Nanotubes by Eisenia Foetida and Daphnia Magna |
| | E.J. Petersen, R.A. Pinto, D.J. Mai, P.F. Landrum, L. Zhang, Q. Huang, X. Shi, W.J. Weber Jr |
| | National Institute of Standards and Technology, US |
| - | An investigation on the aggregation phenomena of Titanium dioxide nanoparticles in natural waters: role of ionic strength, organic matter and natural colloidal particles |
| | M. Romanello, V.A. Luppi, L. Bertini, M. Fidalgo de Cortalezzi |
| | Instituto Tecnológico de Buenos Aires, AR |
| - | Toxicity of Titanium Dioxide Nanoparticles on Growth Kinetics of Activated Biomass |
| | P. Das, N. Bagdiya, A. Kumar |
| | IIT Delhi, IN |
| - | Antibacterial activity and intracellular accumulation of silver nanoparticles on Escherichia coli K-12 |
| | Y.J. Choi, B.-T. Lee, K.-W. Kim, K.H. Chung, W.K. Song |
| | Gwangju Institute of Science and Technology, KR |
| - | Molecular modeling of the PEGylated bilayer as a model for the PEGylated liposome surface in the bloodstream |
| | A. Magakrar |
| | University of Helsinki, FI |
| - | Cytotoxicity of silver nanoparticles |
| | G.A. Sotiriou, A. Pratsinis, J.-C. Leroux, S.E. Pratsinis |
| | Particle Technology Laboratory, ETH Zurich, CH |
| - | Novel Approach using SWCNT as a Mechanism of Toxicity on Fungal and Bacterial Cells |
| | J.S. Chaves, S.J. Chaves |
| | Instituto Tecnologico de Costa Rica, CR |
| - | Multimedia Environmental Distribution of Nanomaterials |
| | H.H. Liu, Y. Cohen |
| | University of California, Los Angeles, US |
| - | Tools and Approaches for the Assessment of Nanomaterial Induced Oxidative DNA Damage |
| | E.J. Petersen, B.J. Marquis, P. Jaruga, M. Dizdaroglu, B.C. Nelson |
| | National Institute of Standards and Technology, US |
| - | Novel Immune Biosensors Based on the Structured Nano-Porous Silicon for Control of Mycotoxins in Environmental Objects |
| | N.F. Starodub, N.F. Slishek, I.V. Pylypenko, L.N. Pylypenko |
| | National University of Life and Environmental Sciences of Ukraine, UA |
| - | Assessment of release and toxicity of NP from silicon-based polymer composites in a life cycle perspective |
| | A. Irfan, S. Sachse, J. Njuguna, H. Zhu |
| | Cranfield University, UK |
| - | The Effect of Photolysis on the Stability and Toxicity of Silver Nanoparticles |
| | A.R. Poda, A.J. Kennedy |
| | US Army Corps of Engineers, US |
| - | A safer formulation concept for flame-generated engineered nanomaterials |
| | S. Gass, G. Pyrgiotakis, J.M. Cohen, G.A. Sotiriou, S.E. Pratsinis, P. Demokritou |
| | Harvard School of Public Health, US |
| - | Toxicological effects of functionalized single-walled carbon nanotubes (SWCNTs) on embryonic zebrafish (Danio rerio) |
| | L. Felix, Y. Martinez-Rubi, B. Simard, G. Goss |
| | University of Alberta, CA |
| - | Evidence for a direct interaction between poly-dispersed single-wall carbon nanotubes and murine erythrocytes resulting in in vitro and in vivo cytotoxicity |
| | S. Sachar, R.K. Saxena |
| | Jawaharlal Nehru University, IN |
| - | Evaluating safety and stability of CNT nanocomposites exposed to environmental conditions |
| | A. Orlov, G. Ramakrishnan, J. Ging, A. Hubert, P. Feka, C.S. Korach |
| | Stony Brook University, US |
| - | Cytotoxic Effects of Short Multi-Wall Carbon Nanotubes in Dorsal Root Ganglion (DRG) Neurons |
| | J.C.K. Lai, W. Gao, A. Bhushan, S.W. Leung |
| | Idaho State University College of Pharmacy, US |
| - | Cytotoxicity of Magnesium Oxide Nanoparticles in Schwann Cells |
| | V.K. Idikuda, A.R. Jaiswal, Y.Y.W. Wong, A. Bhushan, S.W. Leung, J.C.K. Lai |
| | Idaho State University, US |
| - | Cytotoxic Effects of Four Metallic Oxide Nanoparticles on Dorsal Root Ganglion (DRG) Neurons |
| | S. Lu, A. Bhushan, S.W. Leung, C.K. Daniels, J.C.K. Lai |
| | Idaho State University, US |
| - | Fungicidal nanoparticles of low toxicity from cationic lipid and polyelectrolytes |
| | L.D. Melo, A.M. Carmona-Ribeiro |
| | Universidade de São Paulo, BR |
| - | Cancer cell targeting of lipid gene vectors by protein corona |
| | G. Caracciolo, D. Pozzi, A.L. Capriotti, C. Cavaliere, F. Cardarelli, A. Bifone, A. Laganà |
| | Sapienza University of Rome, IT |
| - | Characterization of a Vortex Shaking Method for Producing Airborne Glass Fibers for Toxicology Studies |
| | B.K. Ku, G. Deye, L.A. Turkevich |
| | National Institute for Occupational Safety and Health (NIOSH), US |
| - | A Regulator’s Approach to Nanomaterials |
| | S. Takatori, J. Wong |
| | California Environmental Protection Agency (Cal/EPA), US |
| - | Transport of Nanomaterials in Complex Media |
| | L.A. Ubaque, W.L. Vargas |
| | Universidad de los Andes, CO |
| ISBN: | 978-1-4665-6276-9 |
| Pages: | 818 |
| Hardcopy: | $209.95 |
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