The characteristics and 7 effects of nanoe™

nanoe™ are nano-sized electrostatic atomized water particles with 10 times the OH radicals of nanoe™

Eliminates frequently encountered odours.

Diagram showing various odor problems in a room.

nanoe™ particles, which are smaller than steam particles, penetrate the deepest parts of fibers, allowing for highly effective deodorisation.*1~3 OH radicals reach the sources of the odours themselves and suppress them until they are barely noticeable.

[ How nanoe™ works ]

nanoe™ reliably reaches odours embedded in fibres.

OH radicals break down odour causing substances.

Odour is eliminated.*1~3

[ Effects ]

Graph showing the effect of nanoe™ on cigarette somke odour * 1. nanoe™ X can reduce cigarette smoke odour intensity by 2.4 levels in 12 minutes.
Two graphs showing the effect of nanoe™ on garbage odor * 2. nanoe™ reduced garbage odor intensity of both methylmercaptan and trimethylamine in just 1 hour.

nanoe™ reduced garbage odour intensity in 1 hour.

Graph showing the effect of nanoe™ on a scalp * 3. nanoe massively reduced scalp odour intensity in 6 hours.

nanoe™ reduced scalp odour
intensity massively in 6 hours.

*1 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23㎥ sized test room [Deodorisation method] nanoe™ released [Test substance] Surface-attached cigarette smoke odour [Test result] Odour intensity reduced by 1.2 levels in 2 hours (BAA33-130125-D01)
*2 [Testing organisation] Odour and Aroma Design Course, Department of Integrated Informatics, Faculty of Informatics, Daido University [Testing method] Verified using the six-level odour intensity scale method in an approximately 23㎥ sized test room [Deodorisation method] nanoe™ released [Test substance] Simulated body odour of middle-aged and older people attached to pillow cover [Test result] Odour intensity reduced by 0.65 levels in 6 hours
*3 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23㎥ sized test room [Deodorisation method] nanoe™ released [Test substance] Surface-attached garbage odour [Test result] <Methylmercaptan> Odour intensity reduced by 1.2 levels in 1 hour (1V332-180316-K21) <Trimethylilamine> Odour intensity reduced by 0.9 levels in 1 hour (1V332-180316-K22)

Inhibits activity of airborne, adhered bacteria & viruses.

Diagram showing problems of virues and bacteria in a room.

nanoe™ envelops and inhibits the activity of airborne and adhered bacteria*4~6 and viruses.*7~9

[ How nanoe™ works ]

nanoe™ reliably reaches viruses.

OH radicals transform virus proteins.

Virus activity is inhibited.*4~9

[ Effects ]

Graph showing the effect of nanoe™ on airbone bacteria. We can see that nanoe™ is very effective against Staphylococcus aureus * 4.
Graph showing the effect of nanoe™ on airbone viruses. We can see that the effect of nanoe™ on bacteriophage Θ x 174 * 7 is massive.
Graph showing the effect of nanoe™ on adhered bacteria. We can see that nanoe™ has a major effect on O157 * 6.
Graph showing the effect of nanoe™ on adhered bacteria. We can see that nanoe™ has a major effect on MRSA * 6.
Graph showing the effect of nanoe™ on adhered virus. We can see that nanoe™ has a major effect on Influenza virus H1N1 subtype * 8.
Graph showing the effect of nanoe™ on adhered virus. We can see that nanoe™ is very effective against Poliovirus type 1 (Lsc-2ab) * 9.

*4 <Airborne bacteria (Staphylococcus aureus)> [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] The number of bacteria is measured after direct exposure in an approximately 25㎥ sized airtight test room [Inhibition method] nanoe™ released [Test substance] Airborne bacteria [Test result] Inhibited by at least 99.7% in 4 hours (24_0301_1)
*5 <Adhered bacteria (O157)> [Testing organisation] Japan Food Research Laboratories [Testing method] Measured the number of bacteria adhered to a cloth in an approximately 45L sized airtight test room [Inhibition method] nanoe™ released [Test substance] Adhered bacteria [Test result] Inhibited by at least 99.99% in 1 hour (208120880_001)
*6 <Adhered bacteria (MRSA)> [Testing organisation] Japan Food Research Laboratories [Testing method] Measured the number of bacteria adhered to a cloth in an approximately 45L sized airtight test room [Inhibition method] nanoe™ released [Test substance] Adhered bacteria [Test result] Inhibited by at least 99.99% in 1 hour (208120880_002)
*7 <Airborne virus (bacteriophageΦχ174)> [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] The number of virus is measured after direct exposure in an approximately 25㎥ sized airtight test room [Inhibition method] nanoe™ released [Test substance] Airborne virus [Test result] Inhibited by at least 99.7% in 6 hours (24_0300_1)
*8 <Adhered virus (Influenza virus H1N1 subtype)> [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] Measured the number of virus adhered to a cloth in an approximately 1㎥ sized airtight test room [Inhibition method] nanoe™ released [Test substance] Adhered virus [Test result] Inhibited by at least 99.9% in 2 hours (21_0084_1)
*9 <Adhered virus (Poliovirus type1(Lsc-2ab))> [Testing organisation] Kitasato Research Center for Environmental Science [Testing method] Measured the number of virus adhered to a cloth in an approximately 45L sized airtight test room [Inhibition method] nanoe™ released [Test substance] Adhered virus [Test result] Inhibited by at least 99.7% in 2 hours (22_0096)

Inhibits activity of airborne mould & adhered mould.

An image of a clean kept kitchen .

Various types of airborne mould*1 and even adhered mould*2 found inside room can be enveloped and inhibited by nanoe™.

[ How nanoe™ works ]

nanoe™ reliably reaches mould.

OH radicals denature mould proteins.

Mould activity is inhibited.*10 *11

[ Effects ]

Graph showing the effect of nanoe™ on airbone mold * 10. We can see that nanoe™ has a major effect on Cladosporium.
Graph showing the effect of nanoe™ on adhered mold * 11. We can see that nanoe™ has a major effect on Aspergillus.
8 types of household mold can be inhibited.

*10 [Testing organisation] Japan Food Research Laboratories [Testing method] Measured the number of mould altered in an approximately 23㎥ sized test room [Inhibition method] nanoe™ released [Test substance] Airborne mould [Test result] Inhibited by at least 99% in 1 hour (205061541-001)
*11 [Testing organisation] Japan Food Research Laboratories [Testing method] Measured mould adhered to a cloth [Inhibition method] nanoe™ released [Test substance] Adhered mould [Test result] Inhibited by at least 99.5% in 8 hours (11038081001-02)
*12 Kosuke Takatori, 2002 (Mould Inspection Manual Colour Illustrated Catalogue) p. 382 TECHNO SYSTEMS, Inc.
*13 Kosuke Takatori, 2002 (Mould Inspection Manual Colour Illustrated Catalogue) p. 44-45 TECHNO SYSTEMS, Inc.

Results may vary based on usage, and seasonal and environmental variables (temperature and humidity). nanoe™ X and nanoe™ inhibit activity or growth of viruses, but do not prevent infection.

Inhibits pet-derived allergens and major allergens.

An image of a child relaxes on the carpet with the puppy.

In addition to allergens*14 from sources such as dog/cat dander*14, mite faeces/carcasses*14, ​and airborne mould*14, other major allergens*14 are also inhibited.

[ How nanoe™ works ]

nanoe™ reliably reaches allergens.

OH radicals denature allergen proteins​.

Allergen is inhibited.*14

[ Types of pollen that nanoe™ can inhibit ]

Cedar
Cypress
Orchard grass
Ragweed
Cedar
Cypress
Orchard grass
Ragweed

*14 <Dog-derived allergens and cat-derived allergens> [Testing organisation] Institute of Tokyo Environmental Allergens [Testing method] Direct exposure in a 45L airtight container and measured using the ELISA method [Inhibition method] nanoe™ released [Test substance] dog derived allergens, cat derived allergens [Test result] <Dog (dander)> Inhibited by at least 99% in 1 hour (11M-RPTAPRO47_1) <Cat (dander)> Inhibited by at least 98% in 2 hours (11M-RPTAPR051_1) <Mite faeces/carcasses> [Testing organisation] Panasonic Product Analysis Center [Testing method] Measured allergen attached to a cloth, using the ELISA method, in an approximately 23㎥ sized test room [Inhibition method] nanoe™ released [Test substance] Attached mite allergens [Test result] Inhibited by at least 60% in 24 hours (BAA33-130304-F04) <Mould-derived allergens> [Testing organisation] Institute of Tokyo Environmental Allergens [Testing method] Direct exposure in a 45L airtight container and measured using the ELISA method [Inhibition method] nanoe™ released [Test substance] Mould-derived allergens [Test result] Inhibited by at least 93% in 2 hours (11M-RPTMAR076_1) <Pollen> Cedar [Testing organisation] Panasonic Product Analysis Center [Testing method] Measured allergen attached to a cloth, using the ELISA method, in an approximately 23㎥ sized test room [Inhibition method] nanoe™ released [Test substance] Cedar pollen [Test result] Inhibited by at least 88% in 8 hours (BAA33-130304-F01) Cypress, Orchard grass, Ragweed [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the electrophoresis method in an approximately 23㎥ sized test room [Inhibition method] nanoe™ released [Test substance] Cypress pollen, Orchard grass pollen, Ragweed pollen [Test result] Inhibiting effect was confirmed in 24 hours (1V332-171010-F04, 1V332-171010-F02, 1V332-171010-F01)

Breakdown/inhibition of hazardous substances *15 known to be found in PM2.5.

An image of a city with heavily polluted air.

Breakdown effects of harmful substances such as aromatic acid (benzoic acid), paraffin (hexadecane) has been verified.*15

[ How nanoe™ works ]

nanoe™ reliably reaches hazardous substance​.

OH radicals denature hazardous substance proteins​.

Hazardous substance is inhibited.​*15

[ Effects ]

Graph showing the effect of nanoe™ on aromatic carboxylic acid * 15. We can see that nanoe™ has a major effect on benzoic acid.
Graph showing the effect of nanoe™ on Paraffin * 16. We can see that nanoe™ has a major effect on Hexadecane.
Diagram explaining what hazardous substances are and showing how various harmful substances emitted and drifting in the air of urban areas, can rain down to ground level in certain weather conditions

*15 [Testing organisation] Panasonic Product Analysis Center [Testing method] Measured the amount of attached organic substances in an approximately 23㎥ sized test room [Inhibition method] nanoe™ released [Test result] <Aromatic carboxylic acid (benzoic acid)> Broken down at least 99.9% in approximately 16 hours (Y13NF135) <Paraffin (hexadecane)> Broken down at least 99% in approximately 24 hours (Y13NF136)

Results may vary based on usage, and seasonal and environmental variables (temperature and humidity). nanoe™ X and nanoe™ inhibit activity or growth of viruses, but do not prevent infection.

Moisturised skin & straighter, sleeker hair.

Image of a woman smiling in a mirror.

nanoe™ combines with natural sebum to coat the skin, leading to smooth, well-hydrated skin.*16*17 Also, the abundant moisture found in nanoe™ hydrates the hair, contributing to straighter, sleeker hair.*18

Leads to smooth, well-hydrated skin.

An illustration that shows how water usually escapes from the skin and that the Corneum sloughs off without nanoe™. An illustration showing how the moisture on the surface of the skin can be maintained and how the Corneum can be kept smooth over time with nanoe™. Without nanoe™, skin texture is irregular, has no firmness, and peely. An image showing that the skin has triangular lines and does not peel when nanoe™ X is used.

Furthermore, it can help keep the skin moisturised.

Graph showing how nanoe™ can keep skin moist. nanoe™ achieved great improvement in skin moisturization. * 17

Hair is straighter and smoother with nanoe™.*18

Without nanoe™ X, the hair's moisture balance starts to fail, leading to frizzy hair. With difficulty reflecting light, gloss is reduced and the texture becomes grainy.
With nanoe™ X, your hair can achieve a good moisture balance, allowing you to have shinier hair that reflects light nicely and allows fingers to run through it smoothly.

*16 [Testing organisation] Panasonic Product Analysis Center [Testing method & test result] Approximately 34㎥ sized test room, room temperature 23 degrees Celsius, humidity 30%, 8 women aged 30~49 with varying skin conditions ranging from being averagely moist to dry, the stratum corneum water content was measured before and after resting for 90 minutes being exposed to a nanoe™ generating device, to find the average value of the change. (D01-071219F-01)
*17 [Testing organisation] FCG Research Institute, Inc. [Testing method and test result] Of 20 women 40 ± 2 years old, 10 women used a nanoe™ generating device at home for 28 days, while the other 10 women used a device with no nanoe™ generating device for 28 days at home. (19104)
*18 [Testing organisation] Panasonic Product Analysis Center [Testing method and test result] Approximately 46㎥ sized test room, room temperature 25 degrees Celsius, humidity 40%. Bundles (6 bundles) of hair were suspended 2m from a nanoe™ generating device, with repeated operation of the nanoe™ generating device: 8 hours on and 16 hours off. (D01-091005-01TM) [Method] nanoe™ released [Test substance] Hair

Individual results may vary based on usage, and seasonal and environmental variables (temperature and humidity).