A so-called fourth phase of water (liquid, but with some crystalline organization) that grows on hydrophilic surfaces by absorbing ultraviolet and infrared light, and organizes into a honeycomb-like lattice similar to ice, but lacking the H+ binding layers to make it rigid. It has higher viscosity than bulk water, and a net-negative charge.
Yes, it's a relatively recent concept (decades) pursued mostly by Gerald Pollack at University of Washington and not widely replicated, though there is some replication that has prompted critical review (https://pmc.ncbi.nlm.nih.gov/articles/PMC7404113/). It's also downstream of work by Albert Szent-Györgyi (Nobel prize for vitamin C) and Gilbert Ling. And, of course, there are a bunch of folks Pollack distances himself from commercializing the concept.
If I had a coloring book for every person who cited wikipedia as a reliable source on cutting-edge science... I'd have Christmas presents for a bunch of people I don't know!
Yes, it's a relatively recent concept (decades) pursued mostly by Gerald Pollack at University of Washington and not widely replicated, though there is some replication that has prompted critical review (https://pmc.ncbi.nlm.nih.gov/articles/PMC7404113/). It's also downstream of work by Albert Szent-Györgyi (Nobel prize for vitamin C) and Gilbert Ling. And, of course, there are a bunch of folks Pollack distances himself from commercializing the concept.
From the horse's mouth: https://www.pollacklab.org/research
If I had a coloring book for every person who cited wikipedia as a reliable source on cutting-edge science... I'd have Christmas presents for a bunch of people I don't know!