UVC Disinfection

Single-Cycle, Whole-Room Disinfection

By offering the most extensive choices of UVC on the market, Skytron has the ideal UVC disinfection systems to fill the need of any

 hospital, long term facility, or any area that is improving infection control procedures. With three UVC robot models to choose from, Skytron meets every need and every budget. Through effective, single-cycle, whole-room disinfection, Skytron UV delivers more power and efficiency, ensuring proper disinfection and increased staff workflow productivity.




Disinfection in Places Never Imagined

We are here to support you and provide the highest level of care to your facility. Skytron's UVC Disinfection robots, like the 1140 Sentry, are designed to fit in smaller spaces like helicopters, ambulances, and more.

1140 Sentry
Single Emitter System

Category leading UVC power, single disinfection. 

Lightweight and easy to move. 

This portable UVC room sterilizer has a removable emitter, ideal for use in small spaces. 



3200 Max
Single Emitter System

Shorter Run-Times
Highest single emitter output.
Higher Room Throughput
Faster cycles equals more rooms in less time.
Smart Cycle UVC
Field Balance and PowerBoost UV Technology.



2800 Syndicate
Dual Emitter System

Multiple Locations
Dual emitters allow two locations to be hit with one cycle.

Shadows Minimized
Two emitters allow for more effective treatments. 

Lower Labor Costs
Units do not require repositioning to complete the cycle. 


UV Smart
Countertop Rapid UVC Disinfector

Keep Germs and Viruses Away from Patients and Staff
360-degree disinfection on high-touch items like mobile devices, remotes, keyboards, and more

Simple Addition to Workflow
User-friendly design and portable makes it easy to integrate into your existing space

Peace of Mind
Ensures consistent and powerful disinfection in 25 seconds

Correct Dosage

Skytron’s Ultraviolet C (UVC) provides an effective method of microorganism inactivation for contaminated air and surfaces. UVC disinfection technology has been in use since the early 1900s for municipal water supplies and Skytron’s UVC infection control devices are a powerful, modern, mobile solution to reduce HAI’s.

UVC energy is a wavelength range of Ultraviolet energy spanning 200-280 nanometers (nm). Skytron’s UVC sanitization robots specifically employ the highly germicidal 253.7 nm bandwidth to cause photochemical damage to cellular DNA and virus RNA. This biological damage inactivates the cell by preventing replication and therefore infection capability. Germicidal efficacy is determined by the overall dose of UV disinfection light, which is a product of lamp output (i.e., intensity) and exposure duration.

Traditional, manual hospital cleaning protocols are often insufficient in stopping the spread of pathogens and leave room for error in technique and chemical application. With the use of UVC disinfection in hospitals or any facility, the Skytron portfolio ensures the correct germicidal dose is thoroughly delivered to all surfaces, lowering infection rates and costs.

Napolitano, N. A., Mahapatra, T., & Tang, W. (2015). The effectiveness of UV-C radiation for facility-wide environmental disinfection to reduce health care–acquired infections. American Journal of Infection Control, 43(12), 1342–1346. doi: 10.1016/j.ajic.2015.07.006
Bernard, H., & Little, J. (2015). The Impact of Ultraviolet (UV) Disinfection System Coupled with Evidence-based Interventions on the Incidence of Hospital Onset Clostridium Difficile (HO-C-Diff). American Journal of Infection Control, 43(6). doi: 10.1016/j.ajic.2015.04.067
Liscynesky, C., Hines, L. P., Smyer, J., Hanrahan, M., Orellana, R. C., & Mangino, J. E. (2017). The Effect of Ultraviolet Light on Clostridium difficile Spore Recovery Versus Bleach Alone. Infection Control & Hospital Epidemiology, 38(9), 1116–1117. doi: 10.1017/ice.2017.126
Hanrahan, S., Haraschak, C., & Buckalew, G. (2016). Impact of Ultraviolet Light Disinfection on Central Line-Associated Bloodstream Infection and Catheter Associated Urinary Tract Infection Rates in a Major Medical Teaching Hospitals. Open Forum Infectious Diseases, 3(suppl_1). doi: 10.1093/ofid/ofw172.130
Bedell, K., Buchaklian, A. H., & Perlman, S. (2016). Efficacy of an Automated Multiple Emitter Whole-Room Ultraviolet-C Disinfection System Against Coronaviruses MHV and MERS-CoV. Infection Control & Hospital Epidemiology, 37(5), 598–599. doi: 10.1017/ice.2015.348
Center for Disease Control and Prevention. 2018 National and State Healthcare-Associated Infection Progress Report. Avalable at https://www.cdc.gov/hai/pdfs/progress-report/2018-Progress-Report-Executive-Summary-H.pdf. Accessed November 26, 2019
Haque, M., Sartelli, M., McKimm, J., & Abu Bakar, M. (2018). Health care-associated infections - an overview. Infection and drug resistance, 11, 2321–2333. doi:10.2147/IDR.S177247
CMS.gov Centers for Medicare and Medicaid Services. (2019, July). Retrieved December 12, 2019, from https://www.cms.gov/Medicare/Medicare-Fee-for-Service-Payment/AcuteInpatientPPS/Downloads/HAC-Reduction-Program-Fact-Sheet.pdf.
Weber, D., & Rutala, W. (2013). Understanding and Preventing Transmission of Healthcare-Associated Pathogens Due to the Contaminated Hospital Environment. Infection Control & Hospital Epidemiology, 34(5), 449-452. doi:10.1086/670223
Carling, P., Parry, M., & Von Beheren, S. (2008). Identifying Opportunities to Enhance Environmental Cleaning in 23 Acute Care Hospitals. Infection Control & Hospital Epidemiology, 29(1), 1-7. doi:10.1086/524329

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