Ingenious adaptations are generally required for life under extreme circumstances. Certain bacterial species possess the capability of breathing in oxygen-deprived circumstances. Such rare microorganisms can observe within bottommost part of the lakes, deep below the mines and human gut. They have developing a peculiar breathing process of excretion that pumps out the electrons. Strictly speaking, these microorganisms have acquired the polarizing property of electricity generation for designing the ‘microbial power plant’.
Exploring research quest is on-going to couple the microbial power plants which could effectively run the fuel cells. Biotechnologists utilize an innovative microfluid technology that rapidly focus on the bacteria’s capability to generate microbial power plant in an efficient way. However, the sustain of the microbial electrical characteristics seems to be a great challenge because of the inbuilt complexities in laboratory processing.
The process is performed by the electron generation within the bacterial cells followed by the electron transfer commonly refer to as extracellular electron transfer. In fact, the trending Research Writing employs various probing tools to screen wonderful property possessing bacteria and their EET protein activity. The primary analysis employs di-electrophoresis for rapid sorting with respect to species and size. Copulation of microfluid technique under dielectric force assess the capability of the power generation.
- A decade of research attempts to create microfluid chips imprinted with minute channels to accommodate the bacterial samples.
- Consequently another research measures the bacterial propelled electric field by means of ‘particle image velocimetry’.
- (Wang, et al. 2016) utilizing the trapping voltage and cell size as performance measures and manipulated the bacterial cell polarizability through software simulation.
In the final analysis, the Potential electricity-generating new strains of bacteria which are under aggressive research have to be tremendously screened. It will design microbial power plant can be successfully used for
- Generation of clean energy
- Biosynthesis of fuels
- Wastewater treatment etc
- Wang W, You S, Gong X, Qi D, Chandran BK, Bi L, et al. 2016, ‘Bioinspired nanosucker array for enhancing bioelectricity generation in microbial fuel cells’, Advanced Materials, vol. 28, no. 2, pp. 270-275.