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Forest Science for Sustainable Development of Forests
25 Years of Forestry of the Republic of Srpska

December 7 - 9, 2017.

Molecule as an integrative component of biophysical systems

Author(s):
1. Vojislav V. Mitić, Univeristy of Niš, Faculty of Electronic Engineering, Serbia
2. Bojana Marković, Univeristy of Niš, Faculty of Electronic Engineering, Serbia
3. Dušan Milošević, Univeristy of Niš, Faculty of Electronic Engineering, Serbia
4. Branislav Randjelović, Univeristy of Niš, Faculty of Electronic Engineering, Serbia
5. Ivana Ilić, Univeristy of Niš, Faculty of Electronic Engineering, Serbia
6. Maria Čebela, University of Belgrade, Vinča Institute of Nuclear Sciences, Serbia, Serbia
7. Branislav Vlahovic, United States


Abstract:
Due to the fact that the fields of complex bionanomaterials and molecular microelectronics are constantly expanding, there is a huge interest in bio and physical systems further integration. The idea of this paper is to consider a molecule as an integrative component of these two systems that are dissimilar, even though they are consisting of identical submicroparticles. Electrons intrinsic property, in living and nonliving systems, is their motion within a molecule, but also they are shifting as a part of a molecule that is moving. Furthermore, molecules, as well as biomolecules, are constituents of moving bacteria, thus, a molecule has a central role in connecting electron and microorganism levels. Adding the fact that Brownian motion is a joint property of electrons and microorganisms motion with its fractal similarity characteristics, we can establish mathematical functions in order to relate and more explicit describe these particles motion. Having in mind that a single bacterial cell comprises a couple of million molecules, we created, based on the experimental data, mathematical analytical forms for one molecule and for one bacteria, and in the next step we will try to interconnect them regarding molecule number ratio, what is the aim of our future research. This opens the possibility for integrating biophysical and condensed matter systems structures at the micro and nano scale, which is of substantial interest for further advanced and improved micro and nanoelectronic materials and technology development.

Key words:
microorganisms, biomolecules, Brownian motion, fractals, biophysical systems.

Thematic field:
SYMPOSIUM A - Science of matter, condensed matter and physics of solid states

Date of abstract submission:
28.07.2021.

Conference:
Contemporary Materials 2021 - Savremeni materijali

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