Линн Фостер - Нанотехнологии. Наука, инновации и возможности
61
A. P. Alivisatos, «The Use of Nanocrystals in Biological Detection», Nature Biotech 22 (2004): 47–52.
62
http://www.innovalight.com/.
63
Q. Fu, H. Saltsburg and M. Flytzani-Stephanopoulos, «Active Nonmetallic Au and Pt species on ceria-based water-gas shift catalysts», Science 301 (2003): 935–938; and Q. Fu, W. L. Deng, H. Saltsburg and M. Flytzani-Stephanopoulos, «Activity and Stability of low-content gold-cerium oxide catalysts for the water-gas shift reaction», Applied Catalysis B – Enviromental 56 (2005): 57–68.
64
S. Mornet, S. Vasseur and E. Duguet, «Magnetic nanoparticle design for medical diagnosis and therapy», Journal of Material Chemistry 14 (2004): 2161–2174.
65
A. M. Morawski, G. A. Lanza and S. A. Wickline, «Target contrast agents for magnetic resonance imaging and ultrasound», Current Opinion in Biotechnology 16 (2005): 89–92.
66
http://www.nanophase.com/technology/family.asp.
67
R. Weiss, «For Scince, Nanotech Poses Big Unknowns», Washington Post, February 1, 2004.
68
D. W. Dockery, C. A. pope, X. P. Xu, J. D. Spengler, J. H. Ware, M. E. Fay, B. G. Ferris and F. E. Speizer, «An Association between Air-Pollution and Mortality in 6 United States Cities», New EnglandJournal of Medicine 329 (1993): 1753–1759.
69
В качестве иллюстрации можно вспомнить, как в США и СССР выпускались бомбы и снаряды с сердечниками из обедненного урана. Их применение не связывалось с какими-либо последствиями для окружающей среды и населения, и лишь позднее выяснилось, что при срабатывании таких снарядов образуется значительный объемы аэрозолей из микроскопических частиц солей тяжелых металлов. Этот побочный эффект, на который раньше не обращали внимания, оказался очень серьезным, что вызвало справедливые протесты общественности (Прим. перев.).
70
S. Iijima, Nature 354 (1991): 56.
71
C. Journet et al., Nature 388 (1997): 756; A. Thess et al., Science 273 (1996): 483; A. M. Cassell, J. A. Raymakers, J. Kong, H. Day, J. Phys. Chem. B , 103 (1999): 6484.
72
T. W. Ebessen et al., Nature 382 (1996): 54; M. M. J. Treacy, T. W. Ebessen, J. M. Gibson, Nature 381 (1996): 678; J. W. Mintmire, B. I. Dunlap, C. T. White, Phys Rev Lett 68 (1992): 631.
73
http://www.lenntech.com/Periodic-chart-elements/melting-point.htm.
74
Y. Chen et al., Appl. Phys. Lett . 78 (2001): 2128; D. Qian et al., Appl. Phys. Lett 76 (2000): 2868.
75
R. H. Baughman, A. A. Zakhidov, W. A. de Heer, Science 297 (2002): 787.
76
T. Rueckes et al., Science 298 (2000): 94.
77
D. K. Brock et al., Proc. 2005 IEEE Aero. Conf . (2005).
78
Y. Cui, Q. Wei, H. Park, and С. М. Lieber, «Nanowire Nanosensors for Highly Sensitive and Selective Detection of Biological and Chemical Species», Science 293 (August 17, 2001): 1289–1292; «Space Mission for Nanosensors», The FUTURIST, November/December 2002, 13; J. A. Cassell, «DoD grants $3M to study nanoshells for early detection, treatment of breast cancer», NanoBiotech News 1, no. 3 (August 13, 2003).
79
«Small Wonders, Endless Frontiers: A Review of the National Nanotechnology Initiative», NationalAcademyPress (2002).
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, «Detecting Molecules: The Commercialization of Nanosensors», Nanotechnology Law and Business Journal 2, issue 1 (2005): 1—16. http://pubs.nanolabweb.com/nlb/vol2/ issl/1. —
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, «Drug delivery in biotechnology: Present and future», Current Opinion in Biotechnology 14 (2003): 659–664.
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 [email protected] derivatives provide enhanced access to metallofullerenes and permit in vivo evaluation of [email protected][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
M. R. Prausnitz, «Microneedles for transdermal drug delivery», Advanced Drug Delivery Reviews 56, no. 5 (2004): 581–587.
113
Fan L. S., Tai Y. C. and Muller R. S., «IC-processed Electrostatic Micromotors», Technical Digest, IEDM (1988b): 666.
114
Soong R. K., Bachand G. D., «Powering of an Inorganic Nanodevice with a Biomolecular Motor», Science 290 (2000): 1555.
115
Feng J., Chang H., Li E. and Fan G. «Dynamic Expression of De Novo DNA Methyltransferases Dnmta3a and Dnmta3b in the Central Nervous System», Journal of Neuroscience Research 79, no. 6 (2005): 734.
116
Muller D. J. and Engel A. «Voltage and pH-induced Channel Closure of Porin OmpF Visualized by Atomic Microscopy», Journal of Molecular Biology 285 (1999): 1347.
117
Fang N. and Zhang X. «Imaging properties a metamaterial superlens», Applied Physics Letters 82, no. 2 (2003): 161.
118
Pendry J. «New electromagnetic materials emphasise the negative», Physics World (2001).
119
Wong p. K., Lee y. K. and Ho C. M. «Deformation of DNA molecules by hydrodynamic focusing» J. Fluid. Mech. 497 (2003): 55.
120
Ho D., Chu B., Lee H. and Montemagno C. D. «Protein-driven energy transduction across polymeric biomembranes» Nanotechnology 15 (2004): 1084.
121
MellerA., Nivon L., Brandin E., Golovchenko J. and Brandon D. «Rapid nanopore discrimination between single polynucleotide molecules» Proc. Nat. Ac. Chi.-US 97 (2000): 1079.
122
Chen P., Gu J., Brandin E., Kim Y., Wang Q. and Brandon D. «Probing single DNA molecules transport using fabricated nanopores», Nano. Lett. 4(2004) 2293.
123
Ulman A. An Introduction to Ultrathin Organic Films: From Langmuir – Blodgett to Self-Assembly (Boston: Academic Press, 1991).
124
Ulman A. Characterization of Organic Thin Films (Boston: Butterworth – Heinemann, 1995).
125
Collier C. P., Wong E. W., Belohradsky M., Raymo F. M., Stoddart J. F., Kuekes P. J., Williams R. S. and Heath J. R. «Electronically Configurable Molecular-Based Logic Gates», Science 285 (1999): 391.
126
Huang T. J., Brough B., Ho C.M., Liu Y., Flood A. H., Bonvallet P. A., Tseng H.R., Stoddart J. F., Baller M. and Magonov S. «A Nanomechanical Device Based on Linear Molecular Motors», Applied Physics Letters (November 29, 2004).
127
Huang T. J., Tseng H. R., Sha L., Lu W., Brough B., Flood A. H., Yu B. D., Celeste P. C., Chang J. P., Stoddart J. F. and Ho C.M «Mechanical Shuttling of Linear Motor-Molecule in Condensed Phases on Solid Substrates», Nano Letters (in press).
128
Rogers D. «Neutrophil crawling» video, 1950, http://expmed.bwh.harvard.edu/project/motility/neutrophil.html.
129
Link j. R. and Sailor M. J. «Smart dust: Self-assembling, self-orienting photonic crystals of porous Si», Proceeding of the National Academy of Sciences 100, no.19 (2003): 10607.
130
Roco M. C. & W. S. Bainbridge, Eds. 2003. Converging Technologies for Improving Human Performance. NSF-DOC Report. Boston: Cluwer.
131
Roco M. C. & W. S. Bainbridge, Eds. 2004. Annals of the New York Academy of Sciences 1013: 1-2159.
132
Randor M. & J. Strauss, Eds. 2004. Commercialization and Managing the Converging New Technologies. Report sponsored by the National Science Foundation, Arlington, VA.
133
United Nations Development Programme. 2001. Human Development Report: New York: Oxford University Press.
134
Greenspan A. 1999. Public statement of the Joint Economic Committee of the U.S. Federal Reserve on June 14, 1999, Washington, DC.
135
Roco, Mihail C, and William Sims Bainbridge (eds.). 2001. Societal Implications of Nanoscience and Nanotechnology. Dordrecht, Netherlands: Kluwer. Roco, Mihail C, and William Sims Bainbridge (eds.). 2003. Converging Technologies for Improving Human Performance. Dordrecht, Netherlands: Kluwer.
136
Roco, Mihail C, and William Sims Bainbridge (eds.). 2005. Societal Implications of Nanoscience and Nanotechnology II: Maximizing Human Benefit. Dordrecht, Netherlands: Kluwer.
137
Stark, Rodney, and William Sims Bainbridge. 1987. A Theory of Religion. New York: Toronto/Lang.
138
Stark, Rodney, and William Sims Bainbridge. 1996. Religion, Deviance and Social Control. New York: Routledge.
139
Bainbridge, William Sims. 2003. «Religious Opposition to Cloning», Journal of Evolution and Technology 13, retrieved September 1, 2004, from www.jetpress.org/volume13/bainbridge.html.
140
Kant, Immanuel. 1787. A Critique of Pure Reason. New York: Wiley [1900]
141
Moore, George Edward. 1951. Principia Ethica. Cambridge: Cambridge University Press.
142
Rawls, John. 1971. Л Theory of Justice. Cambridge, Massachusetts: Harvard University Press.
143
Nietzsche, Friedrich Wilhelm. 1886–1887. Beyond Good and Evil and The Genealogy of Morals. New York: Barnes and Noble [1996].
144
Homans, George C. 1974. Social Behavior: Its Elementary Forms. New York: Harcourt, Brace Jovanovich.