Self-service kiosks
Terminals in retail, public sector, ticketing, and service points with continuous use.
Electronics & Touchpoints
Persistent protection for shared device surfaces
Kiosks, ATMs, payment terminals, check-in screens, and shared peripheral equipment are among the most touched surfaces in both public and institutional environments. VitaCoat is positioned as a transparent, non-corrosive, and non-conductive supplementary hygienic layer on these hard external surfaces, without changing appearance or normal operation.
Surface-level risk
Why shared touchpoints need persistent protection
Multi-user electronic touchpoints are used by tens — often hundreds — of people each day, with very limited ability to clean meaningfully between each interaction. A surface cleaned at shift start can be recontaminated within minutes in a high-traffic environment.
This is not necessarily a sign of weak cleaning practice, but the operational reality of user-facing touchpoints where optical clarity, uptime, and throughput limit how often intensive cleaning can be performed.
Why cleaning alone is not enough
- Continuous recontamination between interactions
- Limited room for cleaning during the use cycle
- Hard device surfaces do not inhibit microbial survival by themselves
- Operational pressure to maintain uptime and user flow
High-contact device categories
Where VitaCoat can be relevant in the device ecosystem
ATMs and payment terminals
PIN surfaces, card readers, display glass, and payment terminals with very high contact intensity.
Check-in screens
Healthcare, hospitality, and travel environments where the user population changes quickly.
Shared keyboards and peripherals
Workstations, libraries, laboratories, and shared IT environments with many daily users.
Operational fit
How VitaCoat fits into the maintenance program
VitaCoat is applied after deep cleaning on a prepared surface and is then intended to function passively alongside the facility’s standard cleaning regime. The value is additive: cleaning manages contamination that has already occurred, while the SiO₂-anchored bioflavonoid matrix remains active on the surface between those events.
Apply after deep cleaning
Treat a correctly cleaned and prepared hard surface.
Continue routine cleaning
Continue approved disinfection and hygiene practices as normal.
Use equipment as normal
No special user handling or interface change is required.
Reapply after service interval
Refresh the coating according to the standard service interval and actual wear.
Material compatibility
Transparent, non-corrosive, and electrically inert
Optically transparent
Positioned to preserve brightness, color rendering, and touch function on suitable glass and display surfaces.
Non-corrosive
Developed without chlorine compounds, strong oxidizers, or abrasive particles that threaten common device housings.
Non-conductive
Relevant for capacitive touch interfaces and equipment surfaces where electrical surface properties should remain stable.
VitaCoat should only be applied to clean, dry, hard, non-porous external surfaces. Compatibility should be verified on representative device samples before larger rollout. The product is not intended for exposed electronics, internal modules, or electrical contact interfaces.
Technology
How the SiO₂-bioflavonoid matrix works on device surfaces
SiO₂ anchoring layer
A silicon dioxide network bonds mechanically to hard, non-porous substrates and supports durability against routine wiping and approved cleaning.
Natural active bioflavonoid
Citrus-derived bioflavonoids contribute the hygienic function in the matrix as a naturally derived, non-synthetic active system.
Duration
Up to six months under normal use, depending on cleaning chemistry, frequency, and abrasion level.
Practical for larger device fleets
Application can be coordinated with existing preventive maintenance without introducing separate demanding consumables logistics.
Technical dialogue
Evaluate VitaCoat for your device fleet
Technical review
Assess suitability for device categories, surface types, and operating environment before rollout.
Documentation pack
Access formulation overview, compatibility guidance, application specifications, and performance documentation per environment category.
Pilot before broad rollout
Validate compatibility on one or a few representative devices before larger-scale deployment, consistent with best practice for surface treatment.