Biomedical Engineering Reference
In-Depth Information
131. Cai, W.; Shin, D.; Chen, K.; Gheysens, O.; Cao, Q.; Wang, S. X.; Gambhir, S. S.; Chen, X.
Peptide-Labeled Near-Infrared Quantum Dots for Imaging Tumor Vasculature in Living Sub-
jects.
Nano Lett.
2006,
6,
669-676.
132. Casey, A.; Herzog, E.; Davoren, M.; Lyng, F. M.; Byrne, H. J.; Chambers, G. Spectroscopic
Analysis Confirms the Interactions between Single Walled Carbon Nanotubes and Various
Dyes Commonly used to Assess Cytotoxicity.
Carbon
2007,
45,
1425-1432.
133. Cherukuri, P.; Bachilo, S. M.; Litovsky, S. H.; Weisman, R. B. Near-Infrared Fluorescence
Microscopy of Single-Walled Carbon Nanotunes in Phagocytic Cells.
J. Am. Chem. Soc.
2004,
126,
15638-15639.
134. Cho, S. J.; Maysinger, D.; Jain, M.; Roder, B.; Hackbarth, S.; Winnik, F. M. Long-term Expo-
sure to CdTe Quantum Dots causes Functional Impairments in Live Cells.
Langmuir
2007,
23
.
135. Dabbousi, B. O.; RodrÃguez-Viejo, J.; Mikulec, F. V.; Heine, J. R.; Mattoussi, H.; Ober, R.;
Jensen, K. J.; Bawendi, M. G. (CdSe)ZnS Core-Shell Quantum Dots: Synthesis and Charac-
terization of a Size Series of Highly Luminescent Nanocrystallites.
J. Phys. Chem. B
1997,
101,
9463-9475.
136. Dennis, A. M.; Bao, G. Quantum Dot-Fluorescent Protein Pairs as Novel Fluorescence Reso-
nance Energy Transfer Probes.
Nano Lett.
2008,
8,
1439-1445.
137. Gao, X.; Cui, Y.; Levenson, R. M.; Chung, L. W. K.; Nie, S. In Vivo Cancer Targeting and
Imaging with Semiconductor Quantum Dots.
Nat. Biotechnol.
2004,
22,
969-976.
138. Jin, T.; Fujii, F.; Sakata, H.; Tamura, M.; Kinjo, M. Calixarene-Coated Water-Soluble CdSe-
ZnS Semiconductor Quantum Dots that are Highly Fluorescent and Stable in Aqueous Solu-
tion.
Chem. Commun.
2005,
2829-2831.
139. Lidke, D. S.; Nagy, P.; Heintzmann, R.; Arndt-Jovin, D. J.; Post, J. N.; Grecco, H. E.; Jares-
Erijman, E. A.; Jovin, T. M. Quantum Dot Ligands Provide New Insights into erbB/HER
Receptor-Mediated Signal Transduction.
Nat. Biotechnol.
2004,
22,
198-203.
140. Lovat, V.; Pantarotto, D.; Lagostena, L.; Cacciari, B.; Grolfo, M.; Righi, M., et al. Nanotube
Substrates Boost Neuronal Electrical Signaling.
Nano Lett.
2005,
5,
1107-1110.
141. Pradhan, N.; Battaglia, D. M.; Liu, Y.; Peng, X. Efficient, Stable, Small, and Water Soluble
Doped ZnSe Nanocrystal Emitters as Non-Cadmium Based Biomedical Labels.
Nano Lett.
2007,
7,
312-317.
142. Pulskamp, K.; Diabate, S.; Krug, H. F. Carbon Nanotubes Show no Sign of Acute Toxicity but
Induce Intracellular Reactive Oxygen Species in Dependence on Contaminants.
Toxicol. Lett.
2007,
168,
58-74.
143. Su, H.; Xu, H.; Gao, S.; Dixon, J.; ZP, A.; Wang, A.; Xu, J.; Wang, J. Microwave Synthe-
sis of Nearly Monodisperse Core/Multishell Quantum Dots with Cell Imaging Applica-
tions.
Nanoscale Res. Lett.
2010,
5,
625-630.
144. Su, Y. Y.; Peng, F.; Jiang, Z. Y.; Zhong, Y. L.; Lu, Y. M., et al. In Vivo Distribution, Pharmaco-
kinetics, and Toxicity of Aqueous Synthesized Cadmium-Containing Quantum Dots.
Bioma-
terials
2011,
32,
5855-5862.
145. Xu, H.; Aguilar, Z.; Wei, H.; Wang, A. Development of Semiconductor Nanomaterial Whole
Cell Imaging Sensor on Silanized Microscope Slides.
Front. Biosci.
2011,
E3,
1013-1024.
146. Zhu, Y.; Li, W. X.; Li, Q. N.; Li, Y. G.; Li, Y. F.; Zhang, X. Y., et al. Multi-Walled Carbon
Nanotubes Injure the Plasma Membrane of Macrophages.
Carbon
2009,
47,
1351-1358.
147. Ahmad, M. B.; Shameli, K.; Darroudi, M.; Yunus, W.; Ibrahim, N. A. Synthesis and Charac-
terization of Silver/Clay Nanocomposites by Chemical Reduction Method.
Am. J. Appl. Sci.
2009,
6,
1909-1914.
148. Borum-Nicholas, L.; Wilson, J. O. C. Surface Modification of Hydroxyapatite. Part I. Dodecyl
Alcohol.
Biomaterials
2003,
24,
367-369.
