just started to learn little bit about colloidal solutions. The zeta potential has no meaning if you do not know the pH, ion concentration surrounding the colloids. The nanos in the injection materials are known to behave differently at different pH values. Supposedly they are neutral in the vials but aquire strong positive charge when…
just started to learn little bit about colloidal solutions. The zeta potential has no meaning if you do not know the pH, ion concentration surrounding the colloids. The nanos in the injection materials are known to behave differently at different pH values. Supposedly they are neutral in the vials but aquire strong positive charge when entering the body at the physiological pH, thus literally bombarding, punching holes and going through the negatively charged cells walls.
these are STATIC quantities, always connected to the 3D geometry of charge distribution inside of the entire object. It moves with it or changes when the shape is changing. For that post I calculated the Spike dipole moment and showed there that it is exactly directed toward the 3-meric axis of the complex which enters the cell membrane. It is like a needle punching the hole in the already hugely charged lipid bilayers of every normal cell.
The charges inside of the Spike are the key, in my opinion.
that is really interesting. I wonder if something that suited to the task could have formed naturally...
I also wonder how having focused linear areas of high charge densities affects zeta potential because in the past I've always looked at the cation being symetrical/spherical in its effect.
just started to learn little bit about colloidal solutions. The zeta potential has no meaning if you do not know the pH, ion concentration surrounding the colloids. The nanos in the injection materials are known to behave differently at different pH values. Supposedly they are neutral in the vials but aquire strong positive charge when entering the body at the physiological pH, thus literally bombarding, punching holes and going through the negatively charged cells walls.
Yup it's a very complicated subject.
yes, it is. I look lot into dipole moments of macromolecules and gave a small intro in:
https://mejbcart.substack.com/p/sars-cov-2-spike-protein-5g-and-covid19
these are STATIC quantities, always connected to the 3D geometry of charge distribution inside of the entire object. It moves with it or changes when the shape is changing. For that post I calculated the Spike dipole moment and showed there that it is exactly directed toward the 3-meric axis of the complex which enters the cell membrane. It is like a needle punching the hole in the already hugely charged lipid bilayers of every normal cell.
The charges inside of the Spike are the key, in my opinion.
that is really interesting. I wonder if something that suited to the task could have formed naturally...
I also wonder how having focused linear areas of high charge densities affects zeta potential because in the past I've always looked at the cation being symetrical/spherical in its effect.
Out of curiosity, what is your background?
This is strange, substack erased all my personal info... Under my newsletter there was always that info, but no more now., just wonder why??:
Anyway my fields are, or better, were..:
physics/biophysics, macromolecular crystallography with bioinformatics, synchrotron instumentation...
In regard to ionic shapes, look at the molecular orbitals, there are rarely spherical..