Nano‐dielectrics in biosystems

Abstract: Here, the nano-sized dielectrics in biosystems and their functions are reviewed. For a variety of electromagnetic phenomena observed in biosystems, from a generation of weak electrical pulses in all kinds of neural systems to generation of high-power electrical pulses for sensing and attacking preys in electric eels, nano-dielectrics, such as lipid membrane, always play an important role. The electromagnetic pulses in neural systems are created by transmembrane ionic fluxes through a cluster of ion channels em… Show more

“…where I(t) is the transmembrane ionic current, which is a function of time. Considering that the entire system -the dielectric layer and the solutions above and below this layerconstituted a biological capacitance, [32,33] the change in the transmembrane potential (∆V ) and electric field (∆E) caused by the charge transport could be calculated using the following equations:…”

Simulation of the physical process of neural electromagnetic signal generation based on a simple but functional bionic Na⁺ channel

“…where I(t) is the transmembrane ionic current, which is a function of time. Considering that the entire system -the dielectric layer and the solutions above and below this layerconstituted a biological capacitance, [32,33] the change in the transmembrane potential (∆V ) and electric field (∆E) caused by the charge transport could be calculated using the following equations:…”

Simulation of the physical process of neural electromagnetic signal generation based on a simple but functional bionic Na⁺ channel