Microcluster Mineral Technology Bio-Eleotronics of Microhydrino By Dr. Patrick Flanagan Microclusters sre composed of 10-1000 stoms. In the moleculsr world there are numerous atoms, molecules, and colloids found throughout nature in the plant, anima] and mineral kingdoms. MicroclusterO silica in a nutritional form is n registered trsdemsrk owned by the suthor. Colloidsl end microcluster particles have similar properties but there are finely differentiated variations in sise, electron chsrge distribution end solvation properties. Nsnotechnology is used to control particle size in order to maintain certain unique properties found in Microcluster® silica. Nanotechnology refers to the science that enables the creation of particle characteristics that perform at subcellular and submolecular dimensions. Nanotechnology will provide the next century with many productive uses involving environmentsl issues, biologicsl trsnsport, biologicsl engineering and information transfer at the nanoscale level. MicroclusterO silica is a conglomerate mineral cluster formed with potassium and magnesium in addition to the mineral silica. Partioles are stable, have a large surfaoe/volume area and a potential that creates a cloud of electrons, enabling bonding properties of other ions snd oompounds. In most colloids, 99% of the atoms that make up the partioles are on the inside. Less than 1% of the atoms in colloids exist on the surface of the partioles. In MicroclusterO silioa, 9996 of the atoms making up the particles are on the surface. The surface atoms exist in a flowing liquid energy state. These particles have a chemistry energy profile thnt is very different from ordinsry silics. After exsmining MicroclusterO silice, Dr. Bruce J. Marlow of the University of Massachusetts at Amherst said Using electrophoretic snd differentisl electrophoretic fingerprinting combined with photon correlation spectrosoopy, it is shown that the silica particles in the Flsnsgsn Microcluster colloids do not show the properties of other silice surfsces snd sre unique. (Mnrlow, 1989). They uniformly bind wster in s structured fashion, cresting csges or spsoes between surface atoms and water. Structured water at the interface can hold small ions also between the arranged water molecules. Hydrogen bonds formed between these water arrangements are fairly stable. These spaces have been shown to trap small ions, electrons or other water molecules. These properties occurring st the minersl microclusber interfsce give it unique functionsl properties. Albert Szent-Gyorgyi and Linus Pauling also observed water cages in the 50"“s and 60"“s fascinated with how water oriented itself in biologica] systems between proteina in muscle tissue and albumin preparations.