2. Han, J.-H., et al.,\u00a0Single-molecule detection of brominated dipenyl ether 47 (BDE 47) using a non-competitive phage anti-immunocomplex assay in nanowells.<\/em>\u00a0Proc. SPIE, 2011.\u00a07908<\/strong>: p. 26.<\/p>\n 3. Shi, J.Y., et al.,\u00a0To duckweeds (Landoltia punctata), nanoparticulate copper oxide is more inhibitory than the soluble copper in the bulk solution.<\/em>\u00a0Environmental Pollution, 2011.\u00a0159<\/strong>(5): p. 1277-1282.<\/p>\n 4. Lakshmana, S. and I.M. Kennedy,\u00a0Optical heating and sensing with plasmonic gold shell and phosphorescent core nanoparticle\u00a0<\/em>Proc. SPIE, 2011.\u00a07910<\/strong>: p. 17.<\/p>\n 5. Sudheendra, L., et al.,\u00a0Plasmonic Enhanced Emissions from Cubic NaYF(4):Yb:Er\/Tm Nanophosphors.<\/em>\u00a0Chemistry of Materials, 2011.\u00a023<\/strong>(11): p. 2987-2993.<\/p>\n 6. Son, A., et al.,\u00a0Quantitative gene monitoring of microbial tetracycline resistance using magnetic luminescent nanoparticles.<\/em>Journal of Environmental Monitoring, 2010.\u00a012<\/strong>: p. 1362-1367.<\/p>\n 7. Han, J.-H., et al.\u00a0High performance electrophoresis system for site-specific entrapment of nanoparticles in a nanoarray\u00a0<\/em>inProc. SPIE 7574<\/em>. 2010.<\/p>\n 8. Kim, Y.H., et al.,\u00a0Alveolar Epithelial Cell Injury Due to Zinc Oxide Nanoparticle Exposure.<\/em>\u00a0Am J Respir Crit Care Med, 2010.<\/p>\n 9. Kumfer, B.M., et al.,\u00a0Gas-phase flame synthesis and properties of magnetic iron oxide nanoparticles with reduced oxidation state.<\/em>\u00a0Journal of Aerosol Science, 2010.\u00a041<\/strong>(3): p. 257-265.<\/p>\n 10. Lee, D., et al.,\u00a0Small particles disrupt postnatal airway development.<\/em>\u00a0J Appl Physiol, 2010.\u00a0109<\/strong>(4): p. 1115-1124.<\/p>\n Selected publications<\/p>\n 1. Deng, W., et al.,\u00a0Upconversion in NaYF(4):Yb, Er nanoparticles amplified by metal nanostructures.<\/em>\u00a0Nanotechnology, 2011.\u00a022<\/strong>(32).<\/p>\n 2. Han, J.-H., et al.,\u00a0Single-molecule detection of brominated dipenyl ether 47 (BDE 47) using a non-competitive phage anti-immunocomplex assay in nanowells.<\/em>\u00a0Proc. SPIE, 2011.\u00a07908<\/strong>: p. 26.<\/p>\n 3. Shi, J.Y., et al.,\u00a0To duckweeds (Landoltia punctata), nanoparticulate copper oxide is more inhibitory than the soluble copper in the bulk solution.<\/em>\u00a0Environmental Pollution, 2011.\u00a0159<\/strong>(5): p. 1277-1282.<\/p>\n 4. Lakshmana, S. and I.M. Kennedy,\u00a0Optical heating and sensing with plasmonic gold shell and phosphorescent core nanoparticle\u00a0<\/em>Proc. SPIE, 2011.\u00a07910<\/strong>: p. 17.<\/p>\n 5. Sudheendra, L., et al.,\u00a0Plasmonic Enhanced Emissions from Cubic NaYF(4):Yb:Er\/Tm Nanophosphors.<\/em>\u00a0Chemistry of Materials, 2011.\u00a023<\/strong>(11): p. 2987-2993.<\/p>\n 6. Son, A., et al.,\u00a0Quantitative gene monitoring of microbial tetracycline resistance using magnetic luminescent nanoparticles.<\/em>\u00a0Journal of Environmental Monitoring, 2010.\u00a012<\/strong>: p. 1362-1367.<\/p>\n 7. Han, J.-H., et al.\u00a0High performance electrophoresis system for site-specific entrapment of nanoparticles in a nanoarray\u00a0<\/em>in\u00a0Proc. SPIE 7574<\/em>. 2010.<\/p>\n 8. Kim, Y.H., et al.,\u00a0Alveolar Epithelial Cell Injury Due to Zinc Oxide Nanoparticle Exposure.<\/em>\u00a0Am J Respir Crit Care Med, 2010.<\/p>\n 9. Kumfer, B.M., et al.,\u00a0Gas-phase flame synthesis and properties of magnetic iron oxide nanoparticles with reduced oxidation state.<\/em>\u00a0Journal of Aerosol Science, 2010.41<\/strong>(3): p. 257-265.<\/p>\n 10. Lee, D., et al.,\u00a0Small particles disrupt postnatal airway development.<\/em>\u00a0J Appl Physiol, 2010.\u00a0109<\/strong>(4): p. 1115-1124.<\/p>\n","protected":false},"excerpt":{"rendered":" Selected publications: 1. Deng, W., et al.,\u00a0Upconversion in NaYF(4):Yb, Er nanoparticles amplified by metal nanostructures.\u00a0Nanotechnology, 2011.22(32). 2. Han, J.-H., et al.,\u00a0Single-molecule detection of brominated dipenyl ether 47 (BDE 47) using a non-competitive phage anti-immunocomplex assay in nanowells.\u00a0Proc. SPIE, 2011.\u00a07908: p. 26. 3. Shi, J.Y., et al.,\u00a0To duckweeds (Landoltia punctata), nanoparticulate \u2026 Continue reading Biosensor Research<\/h3>\n
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