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24 lis 2021 · Here we use theory and simulations to show that electrostatics may provide one such mechanism, and that this is very general. Thus, we predict that the electrostatic free energy of an RNA virus...
In everyday scenarios, 100C is the hottest you can easily heat water containing harmful bacteria - and while it can be enough to kill most of them, it won't kill everything. Spores can easily survive, but most raw water doesn't contain enough pathogens to be still dangerous after boiling.
Reactive oxygen species (ROS) can be employed in assisting host defense against viruses. • ROS-based strategies provide application for effective sterilization and disinfection. • Cold plasma delivery system as an eco-friendly tool for virus destruction. • These techniques can kill viruses by their surface modification to prevent host ...
1 lut 2019 · Here, we develop an environmentally friendly technology for sterilising water. The technology bubbles heated un-pressurised carbon dioxide or exhaust gases through wastewater in a bubble column,...
We, therefore, hypothesize that strong electrostatic interactions at interfaces may lead to viral deactivation. To test this hypothesis, we solve numerically the non-linear Poisson-Boltzmann (PB)...
12 paź 2022 · The efficient structure-resonant energy transfer (SRET) effect from electromagnetic waves to confined acoustic vibrations (CAVs) in viruses could result in the fracture of the viral membrane through opposite core-shell oscillations.
5 sie 2020 · In this study, data from the literature is used to calculate the energy required for viral inactivation for a variety of different viruses by means of the Arrhenius equation.
