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Panasonic's exclusive Nanoe X and Nano G technology is a groundbreaking solution in the world of air conditioning and beyond...
1. Unveiling the Marvels of Nanoe-X and Nanoeg Technology
Understanding Nanoe Technology
In the realm of modern physics, the utilization of molecules at the nanometer scale (10−9m) is known as nanoe technology. This involves researching, designing, and applying these ultra-small molecules to tackle life's challenges.
Nanoe technology finds extensive applications in various fields, including:
Medical Technology
Electronics
Textile Technology
Agriculture
In the electronic sector, Nanoe technology is integrated into numerous devices, especially air conditioners, refrigerators, and air purifiers…
Nanoe Technology in Panasonic Air Conditioners
Panasonic's air conditioners and cooling systems are characterized by advanced features such as Inverter energy-saving technology, performance-enhancing Econavi, and intelligent odor-eliminating, bacteria-resistant, dust-reducing Nanoe technology.
Globally, Panasonic has been a leader in electronic technology. Since 1997, Panasonic has been researching, developing, and implementing nanoe technology. By 2008, almost all Panasonic products incorporated this technology.
Nanoe technology involves ultra-small water molecules containing free OH- radicals. These radicals come into contact and inhibit the activity of bacteria, viruses, and airborne particles, ensuring cleaner and healthier air for users.
The average number of OH- molecules generated per second is approximately 480 billion.
Formation and Mechanism of Nanoe Technology
From the debut of the first air conditioner utilizing Nanoe technology in 2018, Panasonic has continuously improved to deliver superior products to customers.
Specifically, by applying the 4-legged electrode technology and Multi-Leader electrostatic atomization, each second, Panasonic's air conditioners can produce up to 4.8 trillion OH- radicals, 10 times more than the previous technology.
The process unfolds as follows:
First, water vapor is formed and condensed on the emitter's surface. Subsequently, the electrostatic emitter transmits high-voltage current through the water vapor. Rapid electrochemical reactions lead to the formation of OH- ions contained within a water membrane known as nanoe X and nanoe G molecules.
Each nanoe ion serves a distinct purpose.
Applications of Nanoe Technology for User Health
Nanoe X
Nanoe X represents an enhanced version of nanoe G technology, exhibiting significantly higher odor neutralization and antibacterial and antiviral capabilities. Specifically:
When released into the air and in contact with harmful bacteria or odor-causing bacteria, OH- ions will combine with H+ ions in the bacteria to form water, thereby inhibiting bacterial activity.
Foul odors such as mold, sweat, cigarette smoke, pet odors, food odors, and harmful viruses are effectively eliminated by nanoe X molecules.
Nanoe G
In addition to Nanoe X, Nanoe G particles are concurrently generated to continue utilizing its dust filtration capability. After being produced, Nanoe G particles spread throughout every corner of the room, capturing airborne dust particles and bringing them to the filter for storage.
Nanoe G's efficient dust and bacteria filtration capability reaches up to 99%.
Outstanding Features of Panasonic's Nanoe Technology
Compared to other air conditioners on the market, those equipped with nanoe technology possess three distinct advantages:
Unlike conventional air conditioners, nanoe features on Panasonic air conditioners operate independently, functioning even when the unit is not running.
Low power consumption, only 25W, equivalent to the power usage of a light bulb.
Ensures clean and healthy air, prioritizing user safety.
