Biomedical Engineering Reference
In-Depth Information
206. Brus, L. E. Electron-Electron and Electron-hole Interaction in Small Semiconductor
Crystallines-the Size Dependence of the Lowest Excited Electronic State.
J. Chem. Phys.
1984,
80,
4403-4409.
207. Norris, D. J.; Sacra, A.; Murray, C. B.; Bawendi, M. G. Measurement of the Size-Dependent
Hole Spectrum in CdSe Quantum Dots.
Phys. Rev. Lett.
1994,
72
.
208. Medintz, I.; Clapp, A.; Mattoussi, H.; Goldman, E.; Fisher, B.; Mauro, J. Self-Assembled
Nanoscale Biosensors Based on Quantum Dot FRET Donors.
Nat. Mater.
2003,
2,
630-638.
209. Medintz, I. L.; Uyeda, H. T.; Goldman, E. R.; Mattoussi, H. Quantum Dot Bioconjugates for
Imaging, Labeling and Sensing.
Nat. Mater.
2005,
4,
435-446.
210. Michalet, X.; Pinaud, F. F.; Bentolila, L. A.; Tsay, J. M.; Doose, S.; Li, J. J.; Sundaresan, G.;
Wu, A. M.; Gambhir, S. S.; Weiss, S. Quantum Dots for Live Cells,
In Vivo
Imaging, and
Diagnostics.
Science
2005,
307,
538-544.
211. So, M. K.; Xu, C.; Loening, A. M.; Gambhir, S. S.; Rao, J. Self-Illuminating Quantum Dot
Conjugates for In Vivo Imaging.
Nat. Biotechnol.
2006,
24,
339-343.
212. Bhadra, D.; Bhadra, S.; Jain, P; Jain, N. K. Pegnology: A Review of PEG-ylated Systems.
Pharmazie
2002,
57,
5-29.
213. Alivisatos, A. P.; Gu, W.; Larabell, C. Quantum Dots as Cellular Probes.
Annu. Rev. Biomed.
Eng.
2005,
7,
55-76.
214. Iyer, G.; Weiss, S.; Pinaud, F.; Tsay, J. M. Solubilization of Quantum Dots with a Recombi-
nant Peptide from
Escherichia coli
.
Small
2007,
3,
793-798.
215. Jamieson, T.; Bakhshi, R.; Petrova, D.; Pocock, R.; Seifalian, A. M. Biological Applications
of Quantum Dots.
Biomaterials
2007,
28,
4717-4732.
216. Liu, W.; Howarth, M.; Greytak, A. B.; Zheng, Y.; Nocera, D. G.; Ting, A. Y., et al. Compact
Biocompatible Quantum Dots Functionalized for Cellular Imaging.
J. Am. Chem. Soc.
2008,
130,
1274-1284.
217. Carion, O.; Mahler, B.; Pons, T.; Dubertret, B. Synthesis, Encapsulation, Purification and
Coupling of Single Quantum Dots in Phospholipid Micelles for their use in Cellular and
In
Vivo
Imaging.
Nat. Protoc.
2007,
2,
2383-2390.
218. Pinaud, F.; King, D.; Moore, H. P.; Weiss, S. Bioactivation and Cell Targeting of Semiconduc-
tor CdSe/ZnS Nanocrystals with Phytochelatin-Related Peptides.
J. Am. Chem. Soc.
2004,
126,
6115-6123.
219. Dufes, C.; Uchegbu, I.; Schatzlein, A. Dendrimers in Gene Delivery.
Adv. Drug Deliv. Rev.
2005,
57,
2177.
220. Hecht, S.; Frechet, J. Dendritic Encapsulation of Function: Applying Nature's Site Isolation
Principle from Biomimetics to Materials Science.
Angew Chem. Int. Ed.
2001,
40,
74.
221. Lai, P.; Lou, P.; Peng, C.; Pai, C.; Yen, W.; Huang, M.; Young, T.; Shieh, M. Doxorubicin
Delivery by Polyamidoamine Dendrimer Conjugation and Photochemical Internalization for
Cancer Therapy.
J. Control. Release
2007,
122,
39.
222. Satoh, K.; Yoshimura, T.; Esumi, K. Effects of Various Thiol Molecules Added on Morphol-
ogy of Dendrimer-Gold Nanocomposites.
J. Colloid Interface Sci.
2002,
255,
312.
223. Tomalia, D.; Reyna, L.; Svenson, S. Dendrimers as Multi-Purpose Nanodevices for Oncology
Drug Delivery and Diagnostic Imaging.
Biochem. Soc. Trans.
2007,
35,
61.
224. Kim, J.; Piao, T.; Hyeon, T. Multifunctional Nanostructured Materials for Multimodal Imag-
ing, and Simultaneous Imaging and Therapy.
Chem. Soc. Rev.
2009,
38,
372-390.
225. Lee, H.; Lee, E. J.; Kim, D. K.; Jang, N. K.; Jeong, Y. Y.; Jon, S. Antibiofouling Polymer-
coated Superparamagnetic Iron Oxide Nanoparticles as Potential Magnetic Resonance Con-
trast Agents For In Vivo Cancer Imaging.
J. Am. Chem. Soc.
2006,
128,
7383-7389.
