Biomedical Engineering Reference
In-Depth Information
15.
Nicolini, C., Erokhin, V., Paddeu, S., Paternolli, C., and Ram, M.K. (1999). Toward bacteri-
orhodopsin based photocells.
Biosens. Bioelectron.
14:427-433.
16.
Adami, M., Sartore, M., and Nicolini, C. (2005). A Neural Network based potentiometric strip-
ping analyzer for multianalyte screening.
Biosensors and Bioelectronics.
submitted.
17.
Paternolli, C., Antonimi, M., Ghisellini, P., and Nicolini, C. (2004) Recombinant cytochrome
P450 immobilization for biosensor applications.
Langmuir
20:11706-11712.
18.
Ram, M.K., Bertoncello, P., Ding, H., Paddeu, S., and Nicolini, C. (2001). Cholesterol biosen-
sors prepared by layer by layer technique.
Biosens. Bioelectron.
16:849-856.
19.
Shumantseva, V. De Luca, G., Bulko, T., Carrara, S., Nicolini, C., Usano,. S.A., and Archakov,
A. (2004). Cholesterol amperometric biosensor based on cytochrome P450scc.
Biosens.
Bioelectron.
19:971-976.
20.
Shumyantseva, V.V., Carrara, S., Bavastrello, V., Riley, J.D., Bulko, T.V., Skryabin, K.G.,
Archakov, A.I., and Nicolini, C. (2005). Direct electron transfer between cytochrome P450scc
and gold nanoparticles on screen-printed rhodium-graphite electrodes.
Biosens. Bioelectron.
21:217-222.
21.
Carter, F.L. (ed.) (1982).
Molecular Electronic Devices
. New York and Basel: Marcel Dekker.
22.
Aviram, A. (ed.) (1992).
Molecular Electronics—Science and Technology
. New York: American
Institute of Physics.
23.
Sienicki, K. (ed.) (1993).
Molecular Electronics and Molecular Electronic Devices
. Boca Raton, FL,
Ann Arbor, MI, London, Tokyo: CRC Press.
24.
Birge, R.R. (ed.) (1994).
Molecular and Biomolecular Electronics
(Advances in Chemistry Series
No. 240). Washington, DC: American Chemical Society.
25.
Barsanti, L., Evangelista, V., Gualtieri, P., Passarelli, V., and Vestri, S. (eds.) (2003).
Molecular
Electronics: Bio-sensors and Bio-computers
(NATO Science Series II, Vol. 96). Dordrecht, Boston
and London: Kluwer Academic Publishers.
26.
Conrad, M. (1990). Molecular computing, In: Yovits, M. C. (ed.)
Advances in Computers
. Vol. 31.
Boston, San Diego, New York, London, Sydney, Tokyo and Toronto: Academic Press, pp. 235-324.
27.
Rambidi, N.G. (1997). Biomolecular computer: roots and promises.
Biosystems
44:1-15.
28.
Rambidi N. (2002). Roots and promises of chemical-based computing.
Biosystems
64:169-178.
29.
Zauner, K.P. (2005). Molecular Information Technology.
Crit. Rev. Solid State Mat. Sci.
30:33-69.
30.
Keyes, R.W. (1975). Physical limits in digital electronics.
Proc. IEEE
63:740-767.
31.
Chiabrera, A., Di Zitti, E., Costa, F., and Bisio, G.M. (1989). Physical limits of integration and
information processing in molecular systems.
J. Phys. D: Appl. Phys.
22:1571-1579.
32.
Marr, D. (1982).
VISION, A Computational Investigation into the Human Representation and
Processing of Visual Information
. New York: Freeman.
33.
Grant, R.G. (2002).
Flight: 100 Years of Aviation
. London: DK Publishing, pp. 8-19.
34.
Hong, F.T. (1994). Molecular electronics: science and technology for the future.
IEEE Eng. Med.
Biol. Magaz
. 13(1):25-32.
35.
Koçer, A., Walko, M., Meijberg, W., and Feringa, B.L. (2005). A light-actuated nanovalve
derived from a channel protein.
Science
309:755-758.
36.
Chen, P.-C. (2004). Polymeric Drug Delivery Systems: Lidocaine Microspheres for Prolonged
and Localized in vivo Anesthetic Effects and Light-Induced Drug Release from Polymeric
Device Mediated by Bacteriorhodopsin. Ph.D. dissertation, University of Michigan, Ann
Arbor, MI, pp. 61-90.
37.
Stryer, L. (1986). Cyclic GMP cascade of vision.
Annu. Rev. Neurosci.
9:87-119.
38.
Hong, F.T. (2004). Molecular electronics switches in photobiology. In: Horspool, W., and Lenci,
F., (Eds.) CRC Handbook of Organic Photochemistry and Photobiology. Boca Raton, FL: CRC
Press, pp. 134-1 to 134-26.
39.
Johnson, L.N., and Barford, D. (1993). The effects of phosphorylation on the structure and
function of proteins.
Annu. Rev. Biophys. Biomol. Struct
. 22:199-232.
40.
Simonton, D.K. (2004).
Creativity in Science: Chance, Logic, Genius, and Zeitgeist.
Cambridge:
Cambridge University Press.
41.
Hong, F.T. (2005). A multi-disciplinary survey of biocomputing: 1. molecular and cellular lev-
els. In: Bajic, V.B., and Tan, T.W., (Eds.)
Information Processing and Living Systems.
(Series on
Advances in Bioinformatics and Computational Biology, Vol. 2). London: Imperial College
Press, pp. 1-137.