The Characteristics and 7 Effects of nanoe™ X

nanoeTM X are nano-sized electrostatic atomized water particles with 480 billion of OH radicals.

Odours
Bacteria & Viruses
Mould
Allergens
Pollens
Hazardous
Skin & hair

Eliminates Frequently Encountered Odours*1~8

(Not a result of experiments in an actual use environment)

Eliminates Frequently Encountered Odours<sup>*1~8</sup>

nanoeTM X particles, which are smaller than steam particles, penetrate the deepest parts of fibers, allowing for highly effective deodorisation.*1~8 OH radicals reach the sources of the odours themselves and suppress them until they are barely noticeable.

How nanoe™ X Works

nanoe™ X reliably reaches odours embedded in fibres.

nanoeTM X reliably reaches odours embedded in fibres.

OH radicals break down odour causing substances.

OH radicals break down odour causing substances.

Odour is eliminated.<sup>*1~8</sup>

Odour is eliminated.*1~8

Effects of nanoe™ X

Pause

nanoeTM X can reduce cigarette smoke odour intensity by 2.4 levels in 12 minutes.

nanoeTM X reduced pet odour intensity by 1.5 levels in 1 hour.

nanoeTM X reduced durian odour intensity faster than natural reduction.

nanoeTM X reduced BBQ odour intensity faster than natural reduction.

nanoe™ X reduced sweat odour intensity massively in 1 hour.

nanoeTM X reduced sweat odour intensity massively in 1 hour.

nanoe™ X reduced damp odour intensity to a hardly noticeable level in 1 hour.

nanoeTM X reduced damp odour intensity to a hardly noticeable level in 1 hour.

nanoe™ X reduced garbage odour intensity in 0.5 hours.

nanoeTM X reduced garbage odour intensity in 0.5 hours.

nanoe™ X reduced scalp odour intensity massively in 6 hours.

nanoeTM X reduced scalp odour intensity massively in 6 hours.

nanoeTM X particles, which are smaller than steam particles, penetrate the deepest parts of fibers, allowing for highly effective deodorisation.*1~8 OH radicals reach the sources of the odours themselves and suppress them until they are barely noticeable.

How nanoe™ X Works

nanoe™ X reliably reaches odours embedded in fibres.

nanoeTM X reliably reaches odours embedded in fibres.

OH radicals break down odour causing substances.

OH radicals break down odour causing substances.

Odour is eliminated.<sup>*1~8</sup>

Odour is eliminated.*1~8

Effects of nanoe™ X

nanoeTM X can reduce cigarette smoke odour intensity by 2.4 levels in 12 minutes.

nanoeTM X reduced pet odour intensity by 1.5 levels in 1 hour.

nanoeTM X reduced durian odour intensity faster than natural reduction.

nanoeTM X reduced BBQ odour intensity faster than natural reduction.

nanoe™ X reduced sweat odour intensity massively in 1 hour.

nanoeTM X reduced sweat odour intensity massively in 1 hour.

nanoe™ X reduced damp odour intensity to a hardly noticeable level in 1 hour.

nanoeTM X reduced damp odour intensity to a hardly noticeable level in 1 hour.

nanoe™ X reduced garbage odour intensity in 0.5 hours.

nanoeTM X reduced garbage odour intensity in 0.5 hours.

nanoe™ X reduced scalp odour intensity massively in 6 hours.

nanoeTM X reduced scalp odour intensity massively in 6 hours.

Inhibits Activity of Airborne, Adhered Bacteria*9~11 & Viruses*11~14

(Not a result of experiments in an actual use environment)

Inhibits Activity of Airborne, Adhered Bacteria<sup>*9~11</sup>  & Viruses<sup>*11~14</sup>

nanoeTM X envelops and inhibits the activity of airborne and adhered bacteria*9~11 and viruses.*12~14

How nanoe™ X Works

nanoe™ X reliably reaches viruses.

nanoeTM X reliably reaches viruses.

OH radicals transform virus proteins.

OH radicals transform virus proteins.

Virus activity is inhibited.<sup>*9-14</sup>

Virus activity is inhibited.*9-14

Effects of nanoe™ X

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Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X

Inhibits Activity of Airborne, Adhered Bacteria*9~11 & Viruses*11~14

(Not a result of experiments in an actual use environment)

Inhibits Activity of Airborne, Adhered Bacteria<sup>*9~11</sup>  & Viruses<sup>*11~14</sup>

nanoeTM X envelops and inhibits the activity of airborne and adhered bacteria*9~11 and viruses.*12~14

How nanoe™ X Works

nanoe™ X reliably reaches viruses.

nanoeTM X reliably reaches viruses.

OH radicals transform virus proteins.

OH radicals transform virus proteins.

Virus activity is inhibited.<sup>*9-14</sup>

Virus activity is inhibited.*9-14

Effects of nanoe™ X

Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X
Effects of nanoe™ X

Inhibits Airborne Mould*15 & Adhered Mould*16 Activity

(Not a result of experiments in an actual use environment)

Inhibits Airborne Mould*¹⁵ & Adhered Mould*¹⁶ Activity

Various types of airborne mould*15 found inside rooms are inhibited. Furthermore, even adhered mould*16 is enveloped and inhibited by nanoeTM X.

How nanoe™ X Works

nanoe™ X reliably reaches mould.

nanoeTM X reliably reaches mould.

OH radicals denature mould proteins.

OH radicals denature mould proteins.

Mould activity is inhibited.*¹⁵*¹⁶

Mould activity is inhibited.*15*16

Effects of nanoe™ X

Effects of nanoe™ X
Effects of nanoe™ X

8 Varieties of Household Mould Are Inhibited

Major types of mould found in house dust:

Major types of mould found in house dust:
Aspergillus, Cladosporium, Alternaria, Fusarium, Penicillium, Eurotium

Mouldfound in bathrooms:

Mouldfound in bathrooms:
Stachybotrys*17

Mould found in soil:

Mould found in soil:
Mucor (Taking into account airborne transfer of mould from soil into the home environment)*18

Inhibits Pet-derived Allergens*19 and Major Allergens*19

(Not a result of experiments in an actual use environment)

Inhibits Pet-derived Allergens*¹⁹ and Major Allergens*¹⁹

In addition to allergens*19 from sources such as dog/cat dander*19, mite faeces/carcasses*19, ​and airborne mould*19, other major allergens*19 can also be inhibited.

How nanoe™ X Works

nanoe™ X reliably reaches allergens.

nanoeTM X reliably reaches allergens.

OH radicals denature allergen proteins​.

OH radicals denature allergen proteins​.

Allergen is inhibited.*¹⁹

Allergen is inhibited.*19

Effects of nanoe™ X

Inhibition*19 effect verified by disappearance of coloured section (band) that reacts to allergens. 

Mites
Insects
Mould
Tree and shrub pollen
Animals
Grass pollen

Inhibits Pollens*20 Globally All Year Around

(Not a result of experiments in an actual use environment)

Inhibits Pollens*²⁰ Globally All Year Around

nanoeTM X is effective in inhibiting*20 a variety of pollens globally all year around.  The inhibition effect has been confirmed for the 13 varieties shown below, including those found in Europe and North America.

How nanoe™ X Works

nanoe™ X reliably  reaches pollen​.

nanoeTM X reliably  reaches pollen​.

OH radicals denature pollen proteins​.

OH radicals denature pollen proteins​.

Pollen is inhibited.*²⁰

Pollen is inhibited.*20

Types of pollen that nanoe™ X can inhibit

Types of pollen that nanoe™ X can inhibit

Breakdown/inhibition of Hazardous Substances*21 Known To Be Found In PM2.5

(Not a result of experiments in an actual use environment)

Breakdown/inhibition of Hazardous Substances*²¹ Known To Be Found In PM2.5

Breakdown effect of aromatic carboxylic acid (benzoic acid) and paraffin (hexadecane), harmful substances, have been verified.*21

How nanoe™ X Works

nanoe™ reliably reaches hazardous  substance​.

nanoeTM reliably reaches hazardous substance​.

OH radicals denature hazardous substance proteins​.

OH radicals denature hazardous substance proteins​.

Hazardous substance is inhibited.​*²¹

Hazardous substance is inhibited.​*21

Effects of nanoe™ X

Effects of nanoe™ X
Effects of nanoe™ X

What Are Hazardous Substances?

PM2.5 particles include a variety of hazardous substances with sources that are unlikely to be eliminated.

What Are Hazardous Substances?

For these reasons, it can be said that we are constantly exposed to risks from various hazardous substances.

Moisturised Skin*22*23 & Straighter, Sleeker Hair*24

(Not a result of experiments in an actual use environment)

Moisturised Skin*²²*²³ & Straighter, Sleeker Hair*²⁴

nanoeTM X combines with natural sebum to coat the skin, leading to smooth, well-hydrated skin.*22*23 Furthermore, the abundant moisture found in nanoeTM X hydrates the hair, contributing to straighter, sleeker hair.*24

Leads to Smooth, Well-hydrated Skin*22*23

Without nanoe™ X
nanoe™ X
Without nanoe™ X
nanoe™ X

Showed An Improvement in Skin Moisture Content Equivalent to A 20 Percentage Point Increase in Humidity*22*23

Showed An Improvement in Skin Moisture Content Equivalent to A 20 Percentage Point Increase in Humidity*²²*²³

nanoeTM X achieved an improvement in skin moisture content equivalent to a 20 percent age point increase in environmental humidity.*22

Hair Is Straighter And Smoother With nanoe™ X*24

Hair Is Straighter And Smoother With nanoe™ X*²⁴

Disclaimer

*1 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room 
[Deodorisation method] nanoeTM released [Test substance] Surface-attached cigarette smoke odour [Test result] Odour intensity reduced by 2.4 levels in 12mins (4AA33-160615-N04)
*2 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room 
[Deodorisation method] nanoeTM released [Test substance] Surface-attached pet odour [Test result] Odour intensity reduced by 1.5 levels in 1 hour (4AA33-160315-A34)
*3 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room
[Deodorisation method] nanoeTM released [Test substance] Surface-attached durian odour [Test result] Odour intensity reduced by 1 level in 0.5 hours (1V332-180402-K01)
*4 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room 
[Deodorisation method] nanoeTM released [Test substance] Surface-attached BBQ odour [Test result] Odour intensity reduced by 1.2 levels in 2 hours (4AA33-151221-N01)
*5 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room
[Deodorisation method] nanoeTM released [Test substance] Surface-attached sweat odour [Test result] Odour intensity reduced by 1.1 levels in 1 hour (Y16HM016)
*6 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room
[Deodorisation method] nanoeTM released [Test substance] Surface-attached damp odour [Test result] Odour intensity reduced by 1.7 levels in 0.5 hours (Y16RA002).
*7 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the six-level odour intensity scale method in an approximately 23m3 sized test room 
[Deodorisation method] nanoeTM released [Test substance] Surface-attached garbage odour [Test result]<Methylmercaptan> Odour intensity reduced by 1.2 levels in 0.5 hours (1V332-18220-K11) <Trimethylamine> Odour intensity reduced by 1.4 levels in 0.5 hours (1V332-180220-K12)
*8 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 23m3 sized test room [Deodorisation method] nanoeTM 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

Deodorisation effect varies according to the environment (temperature and humidity), operation time, odour, and fabric types. It does not eliminate toxic substances in cigarettes (carbon monoxide, etc.). Odours that are continuously generated (e.g., building material odours and pet odours) are not completely eliminated.

*9 <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 25m3 sized airtight test room [Inhibition method] nanoeTM released [Test substance] Airborne bacteria [Test result] Inhibited by at least 99.7% in 4 hours (24_0301_1)
*10 <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] nanoeTM released [Test substance] Adhered bacteria [Test result] Inhibited by at least 99.99% in 1 hour (208120880_001)
*11 <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] nanoeTM released [Test substance] Adhered bacteria [Test result] Inhibited by at least 99.99% in 1 hour (208120880_002)
*12 <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 25m3 sized airtight test room [Inhibition method] nanoeTM released [Test substance] Airborne virus [Test result] Inhibited by at least 99.7% in 6 hours (24_0300_1)
*13 <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 1m3 sized airtight test room [Inhibition method] nanoeTM released [Test substance] Adhered virus [Test result] Inhibited by at least 99.9% in 2 hours (21_0084_1)
*14 <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] nanoeTM released [Test substance] Adhered virus [Test result] Inhibited by at least 99.7% in 2 hours (22_0096)
*15 [Testing organisation] Japan Food Research Laboratories [Testing method] Measured the number of mould altered in an approximately 23m3 sized test room [Inhibition method] nanoeTM released [Test substance] Airborne mould [Test result] Inhibited by at least 99% in 1 hour (205061541-001)
*16 [Testing organisation] Japan Food Research Laboratories [Testing method] Measured mould adhered to a cloth [Inhibition method] nanoeTM released [Test substance] Adhered mould [Test result] Inhibited by at least 99.5% in 8 hours (11038081001-02)
*17 Kosuke Takatori, 2002 (Mould Inspection Manual Colour Illustrated Catalogue) p. 382 TECHNO SYSTEMS, Inc.
*18 Kosuke Takatori, 2002 (Mould Inspection Manual Colour Illustrated Catalogue) p. 44-45 TECHNO SYSTEMS, Inc.
*19 [Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the electrophoresis method in an approximately 23m3 sized test room [Inhibition method] nanoeTM released [Test substance] Allergens (Dermatophagoides pteronyssinus, Dermatophagoides farina, Cedar, Cypress, Orchard grass, Ragweed, Alnus japonica, Japanese white birch, Artemisia, Olive, Juniper, Casuarina, Miscanthus, Timothy grass, Humulus japonicus, Alternaria, Aspergillus, Candida, Malassezia, Cockroach, Moth, Dog (dander), Cat (dander)) [Test result] Inhibiting effect was confirmed in 24 hours (4AA33-160615-F01, 4AA33-170301-F15, 4AA33-151001-F01, 4AA33-151028-F01, 4AA-33-160601-F01, 4AA33-160601-F02, 4AA33-160701-F01, 1V332-180301-F01, 4AA33-160615-F02, 4AA33-160615-F03, 4AA33-160620-F01)
*20 <Cedar, Cypress, Orchard grass, Ragweed, Alnus japonica, Japanese white birch, Artemisia, Olive, Juniper, Casuarina, Miscanthus, Timothy grass, Humulus japonicus pollen> 
[Testing organisation] Panasonic Product Analysis Center [Testing method] Verified using the electrophoresis method in an approximately 23m3 sized test room
[Inhibition method] nanoeTM released [Test substance] Cedar, Cypress, Orchard grass, Ragweed, Alnus japonica, Japanese white birch, Artemisia, Olive, Juniper, Casuarina, Miscanthus, Timothy grass, Humulus japonicus pollen [Test result] Inhibiting effect was confirmed in 24 hours (4AA33-151015-F01, 4AA33-151028-F01, 4AA33-160601-F01, 4AA33-160601-F02, 4AA33-160701-F01, 1V332-180301-F01)
*21 [Testing organisation] Panasonic Product Analysis Center [Testing method] Measured the amount of attached organic substances in an approximately 23m3 sized test room 
[Inhibition method] nanoeTM released [Test result] <Aromatic carboxylic acid (benzoic acid)> Broken down at least 99% in approximately 8 hours (Y17NF096) 
<Paraffin (hexadecane)> Broken down at least 99% in approximately 16 hours (Y17NF089)

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

*22 [Testing organisation] Panasonic Product Analysis Center [Testing method] Rest period: 90 minutes, nanoeTM exposure time: 60 minutes, retention: 60 minutes. 8 women aged 30~49 with dry to normal skin. [Test result] Change in skin moisture content equivalent to a 20 percentage point increase from 30% --> 50% in environmental humidity (USG-KT-14K-012-TM)
*23 [Testing organisation] FCG Research Institute, Inc. [Testing method and test result] Of 20 women 40 ± 2 years old, 10 women used a nanoeTM generating device at home for 28 days, while the other 10 women used a device with no nanoeTM generating device for 28 days at home. (19104)
*24 [Testing organisation] Panasonic Product Analysis Center [Testing method and test result] Approximately 46m3 sized test room, room temperature 25 degrees Celsius, humidity 40%. Bundles (6 bundles) of hair were suspended 2m from a nanoeTM generating device, with repeated operation of the nanoeTM generating device: 8 hours on and 16 hours off. (USD-KS-15S-009-TM) [Method] nanoeTM released [Test substance] Hair Individual results may vary based on usage, and seasonal and environmental variables (temperature and humidity).