Publication #5 – The origin and the special role of coherent water in living systems
Highlights A portion of liquid water exists in a coherent phase where all molecules oscillate in unison, as proposed by the Emilio Del Giudice et al. QED-framework. Interfacial water adjacent to hydrophilic surfaces (so-called “Exclusion Zone” or EZ water) exhibits anomalous properties such as charge separation and solute exclusion, which can be derived from the […]
Publication #4 – Illuminating water and life: Emilio Del Giudice
Highlights The quantum-electrodynamics (QED) theory of water proposed by Emilio Del Giudice and colleagues suggests liquid water forms coherent domains (CDs), where molecules oscillate in unison between ground and excited electronic states. These coherent domains generate almost-free electrons and favour redox reactions, potentially underpinning energy metabolism in living organisms. Interfacial water (near membranes and macromolecules) […]
Publication #3 – Water, The Cradle of Life via its Coherent Quantum Frequencies
Highlights The study proposes that pure water exhibits quantum-coherent electromagnetic frequency patterns that closely mirror those found in living biological systems. A meta-analysis of ~700 measured intrinsic frequencies of water revealed a tight alignment (error ~0.45 %) with a proposed “12-band” coherent GM-scale. This alignment suggests that water’s molecular assemblies might contain “quantum imprints or […]
Publication #2 – The Super-Coherent State of Biological Water
Highlights Biological water may exist in a “super-coherent” state that supports long-range ordering and collective behaviour in living systems. This coherence is proposed to derive from quantum‐electrodynamic (QED) interactions among water molecules, forming a “condensed” coherent domain. Such a state may underpin the unique role of water in biochemistry and life — beyond its classic […]
Publication #1 – Importance of Translational Entropy of Water in Biological Self-Assembly Processes like Protein Folding
Highlights Water’s translational entropy is a central driving force in protein folding and other biological self-assembly processes. Folding reduces excluded volume, giving water molecules greater freedom and increasing entropy. This solvent-centric mechanism explains stability and denaturation effects under pressure and cold conditions. Incorporating solvent entropy can improve protein-structure prediction and molecular design. Introduction Protein […]