anti-viral anti-bacterial anti-fungal protection
DUE TO LEGAL AND CONTRACTUAL REASONS, NANOEL BRAND PRODUCTS
ARE NOT AVAILABLE IN THE UNITED KINGDOM AND IRELAND
EXAMPLES OF NANOEL APPLICATIONS
DIY kits in various sizes (20ml, 60ml, 80ml & 250ml)
LIQUID PRIMER and NANO COATING in larger 20L containers.
COVID-19 coronavirus is genetically similar to the SARS-CoV virus
SUBJECT: Coronavirus COVID-19-nCoV is genetically similar to the SARS-CoV variant, which killed more than 8096 people from an outbreak that began in 2002, says Purdue University Scientist Andrew Mesecar, the Walther Professor in Cancer Structural Biology and head of the Department of Biochemistry.
On Jan. 17 2020, Mesecar and colleagues at the Center for Structural Genomics of Infectious Disease received the genome of the COVID-19 coronavirus. He and his team analyzed the genome on Saturday (Jan. 18). Mesecar found that the genome is almost identical to that of the SARS virus.
EXPERT: Mesecar has previously done genetic work on the SARS and MERS viruses and has successfully developed drug targets for the diseases. He collaborates on the virus research with a team of scientists across the United States who make up the Center for Structural Genomics of Infectious Diseases.
QUOTE: "MERS virus and the SARS virus are more different genetically," Mesecar says. "But the COVID-19 virus is genetically almost identical to the SARS virus and, therefore, it is expected to look and act nearly the same."
Writer: Steve Tally. 765-494-9809, email@example.com
Source: Andrew Mesecar, 765-494-1924 firstname.lastname@example.org
Purdue University is a world-renowned, public research university in West Lafayette, Indiana, USA.
SHOWING YOU HOW EASY &
SIMPLE NANOEL IS TO USE.
ANYONE CAN DO IT.
NO SPECIAL TRAINING OR
LABORATORY TEST CONCLUSIONS:
The virus film applied on the test items and covered with the LDPE-foil was stable over the entire observation period. This means that the virus film remained in the liquid state even at the end of the longest exposure time (24 h) and was not dried.
Thus, a continuous contact between the virus material and the surface of the test carrier was ensured all over the observation period and a distribution of the virus material in the liquid phase driven by diffusion was given.
DETAILS OF LABORATORY TEST RESULTS:
1. There was a significant reduction of viruses that can be attributed to the nanoEL AB coating.
2. After 8 hours the influenza "A" virus and the TGEV-coronavirus for the SARS-CoV virus was reduced by 90%.
3. After 24 hours the influenza A virus was reduced by 99% and the SARS-CoV virus reduced by 99.8%.
The observed virus inactivating effect of the coating
(containing the active components) was determined using the
influenza "A" virus and the TGEV-corona virus for SARS CoV as the test viruses.
NANOEL DEFEND PROTECTION AGAINST ATHLETE'S FOOT
NANOEL DEFEND provides a residual self-sanitizing effect against the athlete's foot fungus (Trichophyton
mentagrophytes) on treated socks and shoes.
Durable and effective for up to 10 repeated washings.
Prevents 99.9% of the growth of athlete's foot fungus
in socks and footwear
DURABLE & PROLONGED ANTI-BACTERIAL EFFECT
Conventional products are absorbed by living cells and
kill by poisoning the organism or disrupting its vital life
processes. They are designed to move from the surface
and dissipate quickly into the organism. Most
commercial anti-bacterial used for treating surfaces do
a fairly adequate job of killing bacteria and fungi but
most have a limited range of effectiveness.
Nanoel AB technology takes a totally unique approach.
It provides an effective initial microbial kill when applied
but unlike conventional methods, it also provides long
term effective control of the growth of new bacteria on
treated surfaces which is often for the life of the surface.
Creates an invisible physical barrier which destroys microbes.
Protected surfaces act as a layer of “swords” that
defend and protect against microbial growth.
The positively charged atoms of nitrogen attract negatively
charged cell membranes which then puncture the microbes.
This unique physical action terminates the life of the microbe.
This effect has also been proven to be non-mutagenic.
Unlike other substance such as Triclosan, which are.
E-coli cluster on untreated fibre E-coli ruptures on contact with NanoEL
Nanoel DEFEND reduces surface energy:
This markedly lower surface energy technology facilitates the easy removal of dirt, biological deposits, soap residues and inorganic contamination.
By forming an ultra-thin layer of glass, nanoel protects, amongst other things, against micro-scratches. Under mechanical abrasion, the protective layer is abraded before the substrate is damaged. A unique GLIDE function, ensures that any abrasive contact materials glide over the treated surface and leave fewer traces. Protected surfaces take-on a measurably higher degree of hardness
* Subsequently, the modified silica delivers a safe and permanent anti-bacterial function (Step 2). For a detailed explanation of efficacy, please see page 15 in the NanoEL presentation.
* A non-migrating anti-bacterial glass layer is created. For certification and use in food contact sectors, national or local law must be observed.
* Nanoel AB is suitable for all water-resistant surfaces.
To meet the highest demands of test standards in the supply chain, colour coding confirms the anti-bacterial agent’s level of performance
NanoEL DEFEND can be applied to the following:
SURFACES SUCH AS:
Plastics, fibreglass, metals, glass, wood, ceramics, stone, natural materials, composites: Including air filters for furnaces, air-conditioners, air purification devices, automobiles, and recirculating air-con systems, aquarium filters, automotive and automotive parts.
MATERIALS SUCH AS:
roofing materials (tiles, shingle, granules, stone, membranes, felt, underlay and synthetic overcoats; building materials and components (including siding, wallboard, wood and wood composites, insulation and cabinets, ceiling tiles, concrete products, dry concrete and grout mixes, conveyor and humidifier belts.
COMMODITIES SUCH AS:
Non-food contact counter tops, fibreglass duct board for air handling systems; floor covering, flooring, general-purpose containers, furniture, bathroom and non-food contact kitchen hardware, mats, plumbing supplies and fixtures, sheet and formed glass, mops, vacuum cleaner bags and filters, foam for packaging and cushion fillers.
FIBROUS MATERIAL & BASIC COMMODITIES SUCH AS: Fibres, fabrics (natural and synthetic, woven and non woven), leather and household materials (natural and synthetic), Including buffer-pads (abrasive and polishing), mattress covers, pads, filling and ticking, pillow covers, sheets, blankets, bedspreads, fibre filling, for upholstery, apparel, recreational gear,
quilts and pillows, curtains, drapery, carpet and carpet
underlay, rugs, upholstery, towels, shower curtains, toilet tanks and seat cover, wall covering fabrics and wallpaper (including vinyl), umbrellas, fire hose fabric, non woven disposable diapers, wiping cloths,
pre-moistened towelettes and tissues wipes (these do not impart pesticidal properties),apparel: including outerwear, sportswear, sleepwear, socks, hosiery,
undergarments, gloves and uniforms; footwear, boots, shoes and components, sports equipment and athletic gear, material for sails, ropes, tents and other outdoor equipment, sand bags, awnings, book covers and pictures.
MANUFACTURED PRODUCTS SUCH AS:
Paints and coatings, disposable foam cushions, foam
used as a growth medium for crops and plants.
The NanoEL coating is a near permanent antimicrobial nano-coating for maximum hygiene protection!
will protect against bacteria,
fungi, mould & various viruses
for a prolonged period of time, typically 1 to 2 years, with a SINGLE APPLICATION.
For more detailed information