Biomedical Engineering Reference
In-Depth Information
107.
Greenbaum, E. (1985). Platinized chloroplasts: a novel photocatalytic material.
Science
230:1373-1375.
108.
Greenbaum, E. (1989). Biomolecular electronics: observation of oriented photocurrents by
entrapped platinized chloroplasts.
Bioelectrochem. Bioenerg.
21:171-177.
109.
Aizawa, M. (1994). Molecular interfacing for protein molecular devices and neurodevices.
IEEE Eng. Med. Biol.
13(1): 94-102.
110.
Barber, J. (1983). Photosynthetic electron transport in relation to thylakoid membrane compo-
sition and organization.
Plant Cell Environ.
6:311-322.
111.
Keyes, R. W. (1975). Physical limits in digital electronics.
Proc. IEEE
63:740-767.
112.
Chiabrera, A., Di Zitti, E., Costa, F., Bisio, G. M. (1989). Physical limits of integration and
information processing in molecular systems.
J. Phys. D: Appl. Phys.
22:1571-1579.
113.
Carter, F. L. (Ed.). (1982).
Molecular Electronic Devices
. New York and Basel: Marcel Dekker.
114.
Aviram, A. (Ed.). (1992).
Molecular Electronics—Science and Technology
. New York: American
Institute of Physics.
115.
Sienicki, K. (Ed.). (1993).
Molecular Electronics and Molecular Electronic Devices
. Boca Raton, FL;
Ann Arbor, MI; London; Tokyo: CRC Press.
116.
Birge, R. R. (Ed.). (1994).
Molecular and Biomolecular Electronics
(Advances in Chemistry Series
No. 240). Washington, DC: American Chemical Society.
117.
Barsanti, L., Evangelista, V., Gualtieri, P., Passarelli, V., Vestri, S. (Eds.). (2003).
Molecular
Electronics: Bio-sensors and Bio-computers
(NATO Science Series II, Vol. 96). Dordrecht, Boston,
and London: Kluwer Academic Publishers.
118.
Gauch, H. G., Jr. (2006). Winning the accuracy game.
American Scientist (Sigma Xi)
94:133-141.
119.
Popper, K. R. (1968).
The Logic of Scientific Discovery
. Revised edition. London: Hutchinson,
London. Original German version:
Logik der Forschung
(Vienna, 1934). Reprinted (London and
New York: Routledge, 1992).
120.
Hong, F. T. (1997). Molecular sensors based on the photoelectric effect of bacterirhodopsin:
origin of differential responsivity.
Mater. Sci. Engg. C
4:267-285. Erratum
Mater. Sci. Engg. C
5:61-79.
121.
Gauch, H. G. Jr. (1993). Prediction, parsimony and noise.
Am. Sci. (Sigma Xi)
81:468-478.
122.
Gauch, H. G., Jr. (2003).
Scientific Method in Practice
. Cambridge: Cambridge University Press.
123.
Hong, F. T. (1992). A reflection on the first International Conference on Intelligent Materials.
Intell. Mater. Newslett. (Intelligent Materials Forum, Tokyo)
2(2):15-18.
124.
Berners-Lee, T., Hendler, J., Lassila, O. (2001). The semantic web.
Sci. Am.
284(5):34-43.
125.
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.
126.
Rambidi, N. G. (1997). Biomolecular computer: roots and promises.
Biosystems
44:1-15.
127.
Rambidi N. (2002). Roots and promises of chemical-based computing.
Biosystems
64:169-178.
128.
Zauner, K. P. (2005). Molecular Information Technology.
Crit. Rev. Solid State Mater. Sci.
30:33-69.
129.
Rambidi, N. G. (1994). Biomolecular computing: from the brain-machine disanalogy to the
brain-machine analogy.
BioSystems
33:45-54.
130.
Hong, F. T. (2005). A multi-disciplinary survey of biocomputing: 1. molecular and cellular levels.
In: Bajic, V. B., 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.
131.
Hong, F. T. (2003). The enigma of creative problem solving: a biocomputing perspective. In:
Barsanti, L., Evangelista, V., Gualtieri, P., Passarelli, V., Vestri, S. (Eds.).
Molecular Electronics:
Bio-sensors and Bio-computers
. (NATO Science Series II, Vol. 96). Dordrecht, Boston and
London: Kluwer Academic Publishers, pp. 457-542.
132.
Hong, F. T. (2005). A multi-disciplinary survey of biocomputing: 2. Systems and evolutionary
levels, and technological applications. In: Bajic, V. B., Tan, T. W. (Eds.).
Information Processing
and Living Systems
. (Series on Advances in Bioinformatics and Computational Biology, Vol. 2).
London: Imperial College Press, pp. 141-573.
133.
Simon, H. A. (1992). Scientific discovery as problem solving. In: Egidi, M., Marris, R. (Eds.).
Economics, Bounded Rationality and the Cognitive Revolution
. Hants, UK, and Brookfield, VT:
Edward Elgar Publishing, pp. 102-119.
