If you are interested in nanoe™ X technology or its products, don’t hesitate to get in touch. Contact Us

If you are interested in nanoe™ X technology or its products, don’t hesitate to get in touch.

Provide your guests and visitors with
a more comfortable stay

Guests' expectations of a comfortable stay have evolved over the years. Create cleaner and safer air in your hotel space with 24-hour nanoe™ X protection and purification to ensure a comfortable hotel experience for every guest.

Why do owners introduce nanoe™ X?

Case study

Provide a clean and secure space.

nanoe™ X inhibits certain bacteria, viruses, pollens, allergens, and moulds, as well as breaking down hazardous substances contained in PM2.5. nanoe™ X also contributes to your business by solving indoor odour issues with deodorisation.

An image of a male holding his note PC and relaxing on the sofa in the room.

24-hour nanoe™ X Improving Protection
Keeping your customers safer indoors

nanoe™ X protects you from some of the most common hotel issues.

Issue: Heightened awareness for cleanness

How can you be sure that bacteria and viruses have been removed?

The hotel room looks clean at a glance. However, guests are increasingly worried that invisible bacteria and viruses have been removed.

An image of a female staff replenishing towels in the guest room.

Solution: Easy treatment

nanoe™ X is highly effective against certain airborne and adhered viruses

nanoe™ X also inhibits viruses attached to critical touchpoints, such as doorknobs, remote controls, and even sofa and carpet fabric.

An image of nanoe™ X functioning on virus attached on a bed or doorknobs in a guest room.

How nanoe™ X works

The first image showing the mechanism of the effect of nanoe™ X.

nanoe™ X reaches virus.

The second image showing the mechanism of the effect of nanoe™ X.

Hydroxyl radicals denature virus proteins.

The third image showing the mechanism of the effect of nanoe™ X.

Virus activity is inhibited.1–6

A better environment all round with nanoe™ X

An image of a male customer reciving coffee from a waitress.

Effectively reduce odours left by previous guests

nanoe™ X technology breaks down substances that cause odours, including those that affect restaurants and bars, such as tobacco odours. Wrapped in water molecules, nanoe™ X easily reach every corner of a room, eliminating undesirable smells to create a premium environment.

An image of a tidy washroom in a hotel.

Inhibit mould to make washrooms easier to clean

Washrooms tend to enclose a high degree of humidity, which can encourage the growth of mould. By keeping the air flowing, nanoe™ X help inhibit mould growth.

Discover Panasonic nanoe™ X products

nanoe™ X technology is incorporated into a wide range of Panasonic products to keep you safe and comfortable indoors.
Whatever your business needs, we have the ideal air solution for you.

4 way cassette

An image of a 4 way cassette.

Adaptive ducted air conditioners

An image of an adaptaive ducted air conditioner.

Ceiling

An image of a ceiling.

Wall-mounted
air conditioners

An image of a wall-mounted air conditioner.

Air purifiers

An image of an air purifier product.

air-e

An image of an air-e product.

Portable nanoe™ X generators

An image of a portable nanoe™ X generator.

Refrigerators

An image of a refrigerator.

nanoe™ X STORIES

How does air quality affect the happiness of your hotel staff?

Hotels are facing more challenges than ever before.

From higher guest expectations around hygiene to increased demands for daily sanitisation and cleaning, as well as a strained international employment and …

An image of a woman receiving the document.

nanoe™ X concentration simulator

Experience how nanoe™ X purifies your indoor space

A simulation image of how nanoe™ X is being sprayed.

1Airborne bacteria (Staphylococcus aureus). Testing organisation: Kitasato Research Center for Environmental Science. Testing method: The number of bacteria was measured after direct exposure in an approximately 25 m3-sized airtight test chamber. Inhibition method: nanoe™ released. Target substance: Airborne bacteria. Test result: Inhibited by at least 99.7% in 4 hours. (24_0301_1)
2Adhered bacteria (O157). Testing organisation: Japan Food Research Laboratories. Testing method: Measured the number of bacteria adhered to a cloth in an approximately 45 L-sized airtight test chamber. Inhibition method: nanoe™ released. Target substance: Adhered bacteria. Test result: Inhibited by at least 99.99% in 1 hour. (208120880_001)
3Adhered bacteria (MRSA). Testing organisation: Japan Food Research Laboratories. Testing method: Measured the number of bacteria adhered to a cloth in an approximately 45-L-sized airtight test chamber. Inhibition method: nanoe™ released. Target substance: Adhered bacteria. Test result: Inhibited by at least 99.99% in 1 hour. (208120880_002)
4Airborne viruses (bacteriophageΦχ174). Testing organisation: Kitasato Research Center for Environmental Science. Testing method: The number of viruses was measured after direct exposure in an approximately 25 m3-sized airtight test chamber. Inhibition method: nanoe™ released. Target substance: Airborne viruses. Test result: Inhibited by at least 99.7% in 6 hours. (24_0300_1)
5Adhered virus (Influenza virus H1N1 subtype). Testing organisation: Kitasato Research Center for Environmental Science. Testing method: Measured the number of viruses adhered to a cloth in an approximately 1 m3-sized airtight test chamber. Inhibition method: nanoe™ released. Target substance: Adhered viruses. Test result: Inhibited by at least 99.9% in 2 hours. (21_0084_1)
6Adhered viruses (Poliovirus type1(Lsc-2ab)). Testing organisation: Kitasato Research Center for Environmental Science. Testing method: Measured the number of viruses adhered to a cloth in an approximately 45 L-sized airtight test chamber. Inhibition method: nanoe™ released. Target substance: Adhered viruses. Test result: Inhibited by at least 99.7% in 2 hours. (22_0096)
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.