Нанотехнологии. Наука, инновации и возможности
Шрифт:
80
S. K. Moore, «U.S. Nanotech Funding Heads for $1 Billion Horizon», IEEE Spectrum On-line, http://www.spectrum.ieee.org/WEB0NLY/resource/jun02/ nnano.html.
81
«Nanosensors», Business Communications Company, Inc., 2004, http:// www. marketresearch.com.
82
NanoMarkets LLC, «Nanosensors: A Market Opportunity Analysis», 2004, http://www.nanomarkets.net/news/pr_detail.cfm?PRID=:156.
83
L. Bock, «Nano’s Veteran Entrepreneur», SMALLTIMES, July/August 2003, 27–32.
84
http://www.research.ibm.com/resources/news/ 2002061 l_millipede.shtml.
85
I. Bernt et al., Molecular Self-assembly: Organic Versus Inorganic Approaches, 1st edition, ed. M. Fujita (Berlin: Springer Verlag, 2000).
86
www.zyvex.com/Capabilities/other.html.
87
Daan Frenkel and B. Smit, Understanding Molecular Simulation, 2nd edition (New York: Academic Press, 2001); and D. C. Rapaport, The Art of Molecular Dynamics Simulation, 2nd edition (Cambridge: Cambridge University Press, 2004).
88
R. Chandrasekaran, J. Miller, and M. Gertner,
89
T. Vo-Dinh, B. M. Cullum, and D. L. Stokes, «Nanosensors and biochips: Frontiers in biomolecular diagnosis», Sensors and Actuators B 74 (2001): 2—11.
90
P. Poncharal, Z. L. Wang, D. Ugarte, and W. A. deHeer, «Electrostatic Deflections and Electromechanical Resonances of Carbon Nanotubes», Science 283 (1999): 1513–1516; and J. Toon, «Weighing the Very Small: ‘Nanobalance’ Based on Carbon Nanotubes Shows New Application for Nanomechanics», Georgia Tech Research News, Mar. 4, 1999.
91
A. N. Cleland and M. L. Roukes, «A Nanometre-scale Mechanical Electrometer», Nature 392 (March 12, 1998).
92
A. Modi, N. Koratkar, E. Lass, B. Wei, and P. M. Ajayan, «Miniaturized Gas Ionization Sensors using Carbon Nanotubes», Nature 424 (July Ю, 2003): 171—174.
93
C. A. Grimes et al «A Sentinel Sensor Network for Hydrogen Sensing», Sensors 3 (2003): 69–82.
94
J. Kong et al., «Nanotube Molecular Wires as Chemical Sensors», Science 287 (Jan. 28, 2000): 622–625.
95
K. Parikh et al., «Flexible Vapor Sensors Using Single Walled Carbon Nanotubes», Sensors and Actuators B, in press.
96
P. G. Datskos and T. Thundat, «Nanocantilever Signal Transduction by Electron Transfer», J. Nanosci. Nanotech 2, no. 3–4 (2002): 369–372.
97
W. L. Hughes and Z. L. Wang, «Nanobelts as nanocantilevers», Applied Physics Letters 82, no. 17 (April 28, 2003): 2886–2888.
98
E. Smalley, «Chip Senses Trace DNA», Technology Res. News (Jul 30/Aug. 6, 2003).
99
«Ultralight device analyzes gases immediately. Flying SnifferSTAR may aid civilians and US military», Sandia National Laboratories, press release, January 23, 2003.
100
International Technology Roadmap of Semiconductors, http://public.itrs.net/.
101
O. Gorka, M. R. Hernandez, A. Rodriguez-Gascon, A. Dominguez-Gil, and J. L. Pedraz,
102
R. Duncan, «The dawning era of polymer therapeutics», Nature Reviews Drug Discovery 2 (2003): 347.
103
T. Nakanishi, S, Fukushima, K. Okamoto, M. Suzuki, Y. Matsumura, M. Yokoyama, T. Okano, Y. Sakurai, and K. Kataoka, «Development of the polymer micelle carrier system for doxorubicin», Journal of Controlled Release 74 (2001): 295—302
104
C Wang, Q. Ge, D. Ting, D. Nguyen, H. Shen, J. Chen, H. N. Eisen, J. Heller, R. Langer, and D. Putnam, «Molecularly engineered poly(ortho ester) microspheres for enhanced delivery of DNA vaccines», Nature Materials 3 (2004): 190–196.
105
E. Mathiowitz, J. S. Jacob, Y. S. long, G. P. Carino, D. E. Checkering, P. Chaturvedi, C A. Santos, K. Vijayaraghavan, S. Montgomery, M. Bas-sett, and C. Morrell, «Biologically erodable microsphere as potential oral drug delivery system», Nature 386, no. 6623 (1997): 410–414.
106
M. E. Davis, S. H. Pun, N. C Bellocq, T. M. Reineke, S. R. Popielarski, S. Mishra, and J. D. Heidel, «Self-assemblying nucleic acid delivery vehicles via linear, water-soluble, cyclodextrin-containing polymers», Current Medicinal Chemistry 11 (2004): 1241–1253.
107
R. D. Bolskar, A. R Benedetto, L. O. Husebo, R. E. Price, E. F. Jackson, S. Wallace, L. J. Wilson, and J. M. Alford, «First soluble M@C-60 derivatives provide enhanced access to metallofullerenes and permit in vivo evaluation of Gd@C-60[C(COOH)(2)](10) as a MRI contrast agent», Journal of the American Chemical Society 125 (2003): 5471–5478.
108
J. L. West and N. J. Halas, «Engineered nanomaterials for biophotonio applications: Improving sensing, imaging, and therapeutics», Annue Review of Biomedical Engineering 5 (2003): 285–297.
109
S. L. Tao and T. A. Desai, «Microfabricated drug delivery systems: From particles to pores», Advanced Drug Delivery Reviews 55 (2003): 315–321.
110
J. Santini, M. Cima, and R. Langer, «A Controlled-release Microchip», Nature 397 (1999): 335.
111
M. R. Prausnitz, S. Mitragotri, and R. Langer, «Current status and potential of transdermal drug delivery», Nature Reviews Drug Disccovery 3, no. 2 (2004): 115–124.
112