Quantum dot weathering results in microbial toxicity.
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Huiguang Zhu | Shaily Mahendra | P. Alvarez | V. Colvin | Shaily Mahendra | Huiguang Zhu | Vicki L Colvin | Pedro J Alvarez
[1] Nicholas A. Kotov,et al. “Raisin Bun”-Type Composite Spheres of Silica and Semiconductor Nanocrystals , 2000 .
[2] S. W. Kim,et al. Novel biodegradable poly(disulfide amine)s for gene delivery with high efficiency and low cytotoxicity. , 2008, Bioconjugate chemistry.
[3] N. Saidi,et al. Impact of heavy metals on the selective phenotypical markers of Pseudomonas aeruginosa , 2001, Microbial Ecology.
[4] A. Hassen,et al. Effects of heavy metals on Pseudomonas aeruginosa and Bacillus thuringiensis , 1998 .
[5] Rebekah Drezek,et al. Forming biocompatible and nonaggregated nanocrystals in water using amphiphilic polymers. , 2007, Journal of the American Chemical Society.
[6] P. Alivisatos. The use of nanocrystals in biological detection , 2004, Nature Biotechnology.
[7] Hassan S. Bazzi,et al. Differences in subcellular distribution and toxicity of green and red emitting CdTe quantum dots , 2005, Journal of Molecular Medicine.
[8] W. Adams,et al. Selenium toxicity toDaphnia magna, Hyallela azteca, and the fathead minnow in hard water , 1980, Bulletin of environmental contamination and toxicology.
[9] Rebekah Drezek,et al. Evaluation of quantum dot cytotoxicity based on intracellular uptake. , 2006, Small.
[10] J. L. Nadeau,et al. Uptake of CdSe and CdSe/ZnS Quantum Dots into Bacteria via Purine-Dependent Mechanisms , 2005, Applied and Environmental Microbiology.
[11] Spallholz Je. Free radical generation by selenium compounds and their prooxidant toxicity. , 1997 .
[12] S. Bhatia,et al. Probing the Cytotoxicity Of Semiconductor Quantum Dots. , 2004, Nano letters.
[13] Shimon Weiss,et al. Properties of Fluorescent Semiconductor Nanocrystals and their Application to Biological Labeling , 2001 .
[14] S J Hamilton,et al. Hazard assessment of inorganics to three endangered fish in the Green River, Utah. , 1995, Ecotoxicology and environmental safety.
[15] K. Neldner,et al. Selenium compounds have disparate abilities to impose oxidative stress and induce apoptosis. , 1999, Free radical biology & medicine.
[16] J. Matthew Mauro,et al. Long-term multiple color imaging of live cells using quantum dot bioconjugates , 2003, Nature Biotechnology.
[17] Michael R. Moore,et al. Adverse Health Effects of Chronic Exposure to Low-Level Cadmium in Foodstuffs and Cigarette Smoke , 2004, Environmental health perspectives.
[18] Jamie R Lead,et al. Nanomaterials in the environment: Behavior, fate, bioavailability, and effects , 2008, Environmental toxicology and chemistry.
[19] Matthew B. Johnson,et al. Large-scale synthesis of nearly monodisperse CdSe/CdS core/shell nanocrystals using air-stable reagents via successive ion layer adsorption and reaction. , 2003, Journal of the American Chemical Society.
[20] S. Hamilton,et al. Review of selenium toxicity in the aquatic food chain. , 2004, The Science of the total environment.
[21] Tim Liedl,et al. Cytotoxicity of colloidal CdSe and CdSe/ZnS nanoparticles. , 2005, Nano letters.
[22] Jim E Riviere,et al. Surface coatings determine cytotoxicity and irritation potential of quantum dot nanoparticles in epidermal keratinocytes. , 2007, The Journal of investigative dermatology.
[23] Mark Green,et al. Semiconductor quantum dots and free radical induced DNA nicking. , 2005, Chemical communications.
[24] Pei Li,et al. Amphiphilic core-shell nanoparticles with poly(ethylenimine) shells as potential gene delivery carriers. , 2005, Bioconjugate chemistry.
[25] Igor L. Medintz,et al. Quantum dot bioconjugates for imaging, labelling and sensing , 2005, Nature materials.
[26] D. Bagchi,et al. Oxidative mechanisms in the toxicity of metal ions. , 1995, Free radical biology & medicine.
[27] S. Silver,et al. A bacterial view of the periodic table: genes and proteins for toxic inorganic ions , 2005, Journal of Industrial Microbiology and Biotechnology.
[28] Jay L Nadeau,et al. Photophysical properties of biologically compatible CdSe quantum dot structures. , 2005, The journal of physical chemistry. B.
[29] Hedi Mattoussi,et al. Tracking metastatic tumor cell extravasation with quantum dot nanocrystals and fluorescence emission-scanning microscopy , 2004, Nature Medicine.
[30] M. Bawendi,et al. Type-II quantum dots: CdTe/CdSe(core/shell) and CdSe/ZnTe(core/shell) heterostructures. , 2003, Journal of the American Chemical Society.
[31] Rebecca L. Lankey,et al. Life-Cycle Methods for Comparing Primary and Rechargeable Batteries , 2000 .
[32] Jim E Riviere,et al. Biodistribution of quantum dot nanoparticles in perfused skin: evidence of coating dependency and periodicity in arterial extraction. , 2007, Nano letters.
[33] William W. Yu,et al. Biological interactions of quantum dot nanoparticles in skin and in human epidermal keratinocytes. , 2008, Toxicology and applied pharmacology.
[34] S. Nie,et al. In vivo cancer targeting and imaging with semiconductor quantum dots , 2004, Nature Biotechnology.
[35] K. H. Nealson,et al. Quantum Dots as Strain- and Metabolism-Specific Microbiological Labels , 2003, Applied and Environmental Microbiology.
[36] S. Gambhir,et al. Quantum Dots for Live Cells, in Vivo Imaging, and Diagnostics , 2005, Science.
[37] A. Knight,et al. Comparative toxicity of selenate, selenite, seleno‐DL‐methionine and seleno‐DL‐cystine to Daphnia magna , 1993 .
[38] Vincent Noireaux,et al. In Vivo Imaging of Quantum Dots Encapsulated in Phospholipid Micelles , 2002, Science.
[39] Robert Langer,et al. Quantum dot-aptamer conjugates for synchronous cancer imaging, therapy, and sensing of drug delivery based on bi-fluorescence resonance energy transfer. , 2007, Nano letters.
[40] Masato Yasuhara,et al. Physicochemical Properties and Cellular Toxicity of Nanocrystal Quantum Dots Depend on Their Surface Modification , 2004 .
[41] S. Hamilton,et al. Hazard assessment of inorganics, individually and in mixtures, to two endangered fish in the San Juan River, New Mexico , 1997 .
[42] Ming-Hsien Tsai,et al. Computational and ultrastructural toxicology of a nanoparticle, Quantum Dot 705, in mice. , 2008, Environmental science & technology.
[43] Ron C. Hardman. A Toxicologic Review of Quantum Dots: Toxicity Depends on Physicochemical and Environmental Factors , 2005, Environmental health perspectives.
[44] Sung Ju Cho,et al. Unmodified cadmium telluride quantum dots induce reactive oxygen species formation leading to multiple organelle damage and cell death. , 2005, Chemistry & biology.
[45] R. Zhuo,et al. A low-toxic and efficient gene vector: carboxymethyl dextran-graft-polyethylenimine. , 2008, Journal of biomedical materials research. Part A.