VU BIO-NANOTECHNOLOGY AND MOLECULAR IMAGING LABORATORY |
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| Publications |
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2008 Fichter, KM, Ardeshiri, A, and Vu TQ. Tracking Single Biomolecules in Live Cells Using Quantum Dots. Series Eds: Yarmush, ML and Langer RS. Methods in Bioengineering Series. Artech House. (submitted) Sundara Rajan S, Liu HY, and Vu TQ. Ligand-Bound Quantum Dots for Studying the Molecular Scale Dynamics of Receptor Endocytic Trafficking in Live Cells. ACS Nano, 2(6), 1153-1166, 2008.  Pattani VP, Li C, Desai TA, and Vu TQ. Microcontact Printing of Quantum Dot Bioconjugate Arrays For Localized Capture and Detection of Biomolecules, Biomedical Microdevices, 10(3):367-73, 2008. Vu TQ and Liu HY. Quantum Dot Hybrid Gel Blotting: A Technique for Identification of Quantum Dot-Protein/Protein-Protein Interactions. In: Nanoscale Molecular-Interaction Technologies in Manipulation of Biomolecules. Eds. Lee, JW and Foote, RS. Methods in Molecular Biology Series. Humana Press. (in press) Zhang F, Ulrich B, Reddy RK, Venkatraman VL, Prasad S, Vu TQ, and Hsu ST. Fabrication of Submicron IrO2 Nanowire Array Biosensor Platform by Conventional Complementary Metal-Oxide-Semiconductor Process. Japanese Journal of Applied Physics, 47(2):1147-1151, 2008. Vartanian KB, Kirkpatrick SJ, McCarty OJ, Vu TQ, Hanson SR, Hinds MT. Distinct Extracellular Matrix Microenvironments of Progenitor and Carotid Endothelial Cells. J Biomed Mater Res A, (epub ahead of print), 2008. Related Patent: Nanoparticle Platforms for Sorting, Capture, and Placement of Cells 2007 Liu HY and Vu TQ. Identification of Quantum Dot Bioconjugates and Cellular Protein Co-localization by Hybrid Gel BLotting. Nano Letters, 7(4):1044-9, 2007. Related Patent: A Method for Separation and Identification of Proteins Using Unconventional Gel Electrophoresis and Nanoparticle Quantum Dot Tags Vu TQ, Sundara Rajan S, and Liu HY. Ligand Bound Quantum Dots for Intracellular Imaging of NeuralReceptors. Proceedings of SPIE, Colloidal Quantum Dots for Biomedical Appliations, Vol. 6448, 2007. 2006 Sundara Rajan S and Vu, TQ. Quantum Dots Monitor TrkA Receptor Dynamics in the Interior of Neural PC12 Cells. Nano Letters 2006 Sep;6(9):2049-59. Vu TQ, Rajan SS. Quantum Dot Imaging in for Imaging and Diagnostics. In: At the Building Block Level: Nanotechnology for Biology and Medicine, Editor: Silva, GA. Springer Scientific, (submitted) 2005 Vu TQ, Maddipati R, Blute TA, Nehilla BJ, Nusblat L, and Desai TA. Peptide-Conjugated Quantum Dots Activate Neuronal Receptors and Initiate Downstream Signaling of Neurite Growth, Nano Letters 5(4): 603-607, 2005. Nehilla, BJ; Vu, TQ; Desai, TA. Stoichiometry-Dependent Formation of Quantum Dot-Antibody Bioconjugates: A Complementary Atomic Force Microscopy and Agarose Gel Electrophoresis Study. J. Phys. Chem. B. 109(44); 20724-20730, 2005. Vu TQ, Maddipati R, Blute TA, Nehilla BJ, Nusblat L, and Desai TA. Ligand-conjugated quantum dots for targeted drug delivery to nerve cells. Proceedings of the Special Topic Conference on Microtechnologies, IEEE in Engineering in Biology and Medicine, Hawaii, pg.152-3, 2005. Vu TQ, Qian H, Standaert RF, Chowdhurry S, Pepperberg DR. Activation of Neural Receptor Channels Using Neurotransmitter Conjugates Designed for Surface Attachment. Biomaterials, 25(14):1605-2195, 2005. pre-2005 |