A image of PM 2.5

Effect

Breakdown/inhibition of hazardous
substances¹ found in PM 2.5

Breakdown effects of harmful substances such as aromatic acid (benzoic acid), paraffin (hexadecane) has been verified.1

What are hazardous substances ?

PM 2.5 particles include a variety of hazardous substances with sources that are unlikely to be eliminated.

[PM 2.5 Generation routes]
For these reasons, it can be said that we are constantly exposed to risks from various hazardous substances.

Generation route 1

Generation route 1
Direct emission

Generation route 2

Generation route 2
Chemical reactions make particles

Hazardous substances fall to the ground due to weather conditions
A: Gaseous substances
B: Also enter rooms

A image of a people in a nursery while nanoe™ X operation

Are they breathing truly fresh air?

In today’s urban environments, quality indoor air is a precious commodity. nanoe™ X helps keep the air indoors fresher and cleaner, breaking down airborne PM 2.5 to support the health of your loved ones.

Effects on hazardous substances

Aromatic carboxylic acid1
Benzoic acid

A graph showing that nanoe™ X has a significant effect on aromatic carboxylic acid (benzoic acid)

Paraffin1
Hexadecane

A graph showing that nanoe™ X has a significant effect on paraffin (hexadecane)

Quality lifestyle through nanoe™ X

Proven hazardous substances with nanoe™ X

Hazardous substances

Properties of substances

IARC2
Evaluation of carcinogenic risks to humans

Aromatic carboxylic acid
(Benzoic acid)

Considered to be one cause of acid rain

-

Paraffin
(Hexadecane)

Contained in gasoline and diesel exhaust gas, and considered to be one cause of oil odour

-

Benz [a] anthracene
(BaA)

Considered to be high carcinogenic risk

2B Possibly carcinogenic to humans

Benzo [b] fluoranthene
(BbF)

Considered to be high carcinogenic risk

2B Possibly carcinogenic to humans

Benzo [a] pyrene
(BaP)

Considered to be high carcinogenic risk

1 Carcinogenic to humans

Indeno [1,2,3-cd] pyrene
(IcP)

Considered to be high carcinogenic risk

2B Possibly carcinogenic to humans

Dibenzo [a,h] anthracene
(Dha)

Considered to be high carcinogenic risk

2A Probably carcinogenic to humans

How nanoe™ X works

nanoe™ X reaches hazardous substance.

nanoe™ X reaches hazardous substance​.​

Hydroxyl radicals denature hazardous substance.

Hydroxyl radicals denature hazardous substance.​

Hazardous substance is inhibited.

Hazardous substance is inhibited.1

1Testing organisation: Panasonic Product Analysis Center. Testing method: measured the amount of adhered organic substances in an approximately 23 m3-sized test chamber. Inhibition method: nanoe™ released. Test results: 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). nanoe™ X and nanoe™ inhibit activity or growth of pollutants, but do not prevent illness.

2International Agency for Research on Cancer, IARC; A cancer-dedicated WHO (World Health Organization) agency that conducts cancer-prevention research.

Evidence

PM 2.5

nanoe™

Target

Results*¹

Test space

Exposure
time (hr)

Testing organisation

Report No.

PDF

Carcinogen

Benz [a] anthracene [BaA]

78%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF141

80%
decomposed

36 L

8

SGS

SHES160600431171

Benzo [b] fluoranthene [BbF]

79%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF142

70%
decomposed

36 L

8

SGS

SHES160600431171

Benzo [a] pyrene [BaP]

97%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF143

99%
decomposed

36 L

8

SGS

SHES160600431171

Indeno [1,2,3-cd] pyrene [IcP]

97%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF144

80%
decomposed

36 L

8

SGS

SHES160600431171

Dibenzo [a,h] anthracene [DHa]

81%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF145

72%
decomposed

36 L

8

SGS

SHES160600431171

Exhaust gas, acid rain

Aromatic carboxylic acid
(benzoic acid)

99%
decomposed

Approx.
23 m³

16

Panasonic Product Analysis Center

Y13NF135

99%
decomposed

Approx.
23 m³

16

SGS

SHES160600431171

Paraffin
(hexadecane)

99%
decomposed

Approx.
23 m³

24

Panasonic Product Analysis Center

Y13NF136

99%
decomposed

Approx.
23 m³

24

SGS

SHES160600431171

nanoe™ X

Target

Results*¹

Test space

Exposure
time (hr)

Testing organisation

Report No.

PDF

Carcinogen

Benz [a] anthracene [BaA]

78%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF141

80%
decomposed

36 L

8

SGS

SHES160600431171

Benzo [b] fluoranthene [BbF]

79%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF142

70%
decomposed

36 L

8

SGS

SHES160600431171

Benzo [a] pyrene [BaP]

97%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF143

99%
decomposed

36 L

8

SGS

SHES160600431171

Indeno [1,2,3-cd] pyrene [IcP]

97%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF144

80%
decomposed

36 L

8

SGS

SHES160600431171

Dibenzo [a,h] anthracene [DHa]

81%
decomposed

36 L

8

Panasonic Product Analysis Center

Y13NF145

72%
decomposed

36 L

8

SGS

SHES160600431171

Exhaust gas, acid rain

Aromatic carboxylic acid
(benzoic acid)

99%
decomposed

Approx.
23 m³

16

Panasonic Product Analysis Center

Y13NF135

99%
decomposed

Approx.
23 m³

16

SGS

SHES160600431171

99%
decomposed

Approx.
23 m³

8

Panasonic Product Analysis Center

Y17NF096

Paraffin
(hexadecane)

99%
decomposed

Approx.
23 m³

24

SGS

SHES160600431171

99%
decomposed

Approx.
23 m³

16

Panasonic Product Analysis Center

Y17NF089

92%
decomposed

267 m²

8

Environmental Technology Research Center

ETRC257

nanoe™ X (nanoe™ X Generator Mark 2)

Target

Results*¹

Test space

Exposure
time (hr)

Testing organisation

Report No.

PDF

Adhering

Paraffin
(hexadecane)

92% decomposed

Approx. 267m³

8

Environmental Technology Research Center

ETRC257/16/1402 [R479/19]

PDF

nanoe™ X: improving protection 24/7

Effects of nanoe™ X—unique Panasonic technology