[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]  Paul Mauck [@MauckPaul20249](/creator/twitter/MauckPaul20249) on x 1173 followers Created: 2025-07-26 01:14:02 UTC ...bodies of water could theoretically generate electricity. Pollack’s experiments with Nafion tubes demonstrate that light-driven charge separation can produce continuous energy output, potentially applicable in renewable energy systems. • Biological Systems: Since the human body is ~70% water (and XX% water molecules), EZ water may play a role in cellular energy. Hydrophilic surfaces in cells (e.g., proteins, membranes) create EZ water, which could store energy and drive processes like blood flow or mitochondrial function. • Environmental Applications: Structured water could enhance water purification (by excluding contaminants) or improve soil hydration in agriculture, indirectly supporting energy-efficient systems. The Photo Effect in Detail The photo effect is central to EZ water’s energy storage potential: • Infrared Light: Infrared radiation, abundant in sunlight, is the most effective at expanding the EZ and enhancing charge separation. This is because water strongly absorbs infrared light at ~3 μm, providing the energy to reorganize water molecules and split charges. • Natural Analogy: This process mirrors how plants use sunlight to split water in photosynthesis, suggesting water itself can act as a natural photovoltaic system. Pollack speculates that this mechanism could explain phenomena like the feel-good effect of sunlight or saunas, as infrared light boosts EZ water in the body, enhancing capillary flow and cellular energy. Critical Considerations • Scientific Controversy: Some chemists argue that EZ water phenomena can be explained by conventional water chemistry (e.g., impurities or surface effects). Critics claim Pollack’s results challenge the electroneutrality principle of bulk fluids, though his experiments have been published in peer-reviewed journals like Physical Review E and Langmuir. • Scalability: While small-scale experiments (e.g., powering an LED) are promising, scaling EZ water for large energy storage systems faces practical challenges, such as maintaining hydrophilic surfaces and optimizing light exposure. • Ongoing Research: Pollack’s lab continues to explore applications, and his work has inspired technologies through 4th-Phase, Inc., a spinoff company. However, mainstream adoption remains limited pending further validation. Conclusion Dr. Gerald Pollack’s discovery of the fourth phase of water (EZ water) suggests that bodies of water, when interacting with hydrophilic membranes and exposed to light (especially infrared), can store energy through charge separation, acting like a natural battery. The photo effect drives this process, splitting water into negatively charged EZ water and positively charged bulk water, with potential applications in energy production, biology, and environmental technologies. While promising, the concept requires further research to overcome skepticism and practical hurdles. For more details, check out Pollack’s book, The Fourth Phase of Water: Beyond Solid, Liquid, and Vapor, or visit his lab’s website XX engagements  **Related Topics** [ez](/topic/ez) [coins energy](/topic/coins-energy) [Post Link](https://x.com/MauckPaul20249/status/1948914674889560555)
[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]
Paul Mauck @MauckPaul20249 on x 1173 followers
Created: 2025-07-26 01:14:02 UTC
...bodies of water could theoretically generate electricity. Pollack’s experiments with Nafion tubes demonstrate that light-driven charge separation can produce continuous energy output, potentially applicable in renewable energy systems.
• Biological Systems: Since the human body is ~70% water (and XX% water molecules), EZ water may play a role in cellular energy. Hydrophilic surfaces in cells (e.g., proteins, membranes) create EZ water, which could store energy and drive processes like blood flow or mitochondrial function.
• Environmental Applications: Structured water could enhance water purification (by excluding contaminants) or improve soil hydration in agriculture, indirectly supporting energy-efficient systems.
The Photo Effect in Detail
The photo effect is central to EZ water’s energy storage potential:
• Infrared Light: Infrared radiation, abundant in sunlight, is the most effective at expanding the EZ and enhancing charge separation. This is because water strongly absorbs infrared light at ~3 μm, providing the energy to reorganize water molecules and split charges.
• Natural Analogy: This process mirrors how plants use sunlight to split water in photosynthesis, suggesting water itself can act as a natural photovoltaic system. Pollack speculates that this mechanism could explain phenomena like the feel-good effect of sunlight or saunas, as infrared light boosts EZ water in the body, enhancing capillary flow and cellular energy.
Critical Considerations
• Scientific Controversy: Some chemists argue that EZ water phenomena can be explained by conventional water chemistry (e.g., impurities or surface effects). Critics claim Pollack’s results challenge the electroneutrality principle of bulk fluids, though his experiments have been published in peer-reviewed journals like Physical Review E and Langmuir.
• Scalability: While small-scale experiments (e.g., powering an LED) are promising, scaling EZ water for large energy storage systems faces practical challenges, such as maintaining hydrophilic surfaces and optimizing light exposure.
• Ongoing Research: Pollack’s lab continues to explore applications, and his work has inspired technologies through 4th-Phase, Inc., a spinoff company. However, mainstream adoption remains limited pending further validation.
Conclusion
Dr. Gerald Pollack’s discovery of the fourth phase of water (EZ water) suggests that bodies of water, when interacting with hydrophilic membranes and exposed to light (especially infrared), can store energy through charge separation, acting like a natural battery. The photo effect drives this process, splitting water into negatively charged EZ water and positively charged bulk water, with potential applications in energy production, biology, and environmental technologies. While promising, the concept requires further research to overcome skepticism and practical hurdles. For more details, check out Pollack’s book, The Fourth Phase of Water: Beyond Solid, Liquid, and Vapor, or visit his lab’s website
XX engagements
Related Topics ez coins energy