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A three output microelectronic circuit functionally equivalent to a hydrogen bonding network is modeled. Proton transfer characteristics of each hydrogen bond of the network are emulated by block-elements in the microelectronic circuit with their respective l-V characteristics. These characteristics are coded in Matlab where the dynamic and static analyses are carried out. The results imply that in static mode the functionally analogous circuit operates as a current source or an amplifier. In dynamic mode the circuit behaves as a voltage driven triangular pulse signal source. The simulations show that the generated pulses at the three circuit outputs have different frequency, amplitude, and width.
Rocznik
Tom
Strony
293--298
Opis fizyczny
Bibliogr. 8 poz.
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autor
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autor
autor
- Technical University of Sofia, Faculty of Electronics Engineering and Technology (FETT), Dept. of Microelectronics, ECAD Laboratory, rusev@ecad.tu-sofia.bg
Bibliografia
- [1] T. Kato, ''Supramolecular liquid-crystalline materials: molecular self-assembly and self-organization through intermolecular hydrogen bonding", Supramolecular Science, vol. 3, issues 3 pp. 53-59, 1996.
- [2] D. Lawrence, T Jiang, M Levett, "Self-Assembling Supramolecular Complexes", Chem Rev, Vol. 95, pp 2229-2260, 1995.
- [3] S. Stupp, V. LeBonheur, K. Walker, L. S. Li, K. E. Huggins, M. Keser, and A Amstutz, "Supramolecular Materials: Self-Organized Nanostructures," Science, vol. 276. pp. 384-389, 1997.
- [4] G A Jeffrey, "An Introduction to Hydrogen Bonding Book Description," Oxford University Press, USA, pp 320, 1997.
- [5] D. Braun, N.A. Dencher, A. Fahr, M. Lindau, and M,P. Heyn, "Nonlinear Voltage Dependence of the Light-Driven Proton Pump Current of Bacteriorhodopsin," Biophysical Journal, vol. 53, pp. 617-621, 1988.
- [6] R. Rusev, G. Angelov, T. Takov, B. Atanasov, M. Hristov, "Comparison of Branching Hydrogen Bonding Networks with Microelectronic Devices", Annual J. of Electronics, Vol.3, No 2,pp. 152-154, 2009.
- [7] Brunger A., Z. Schulten and K. Schulten. A Network Thermodinamic Investigation of Stationary and non-Stationary Proton Transport through Proteins. Z. Phys. Chem., 1983, vol. 136, pp. 1-63.
- [8] Matlab website http://www.mathworks com.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-LOD6-0024-0028