XCMR, Inc.
XCMR leads in biosecurity innovation by incorporating UVC into wearable, portable, and stationary devices to prevent infectious disease transmission. The company utilizes IoT cloud-enabled AI-driven predictive analytics to enhance visibility, response, and preparedness for infection transmission resiliency. Focused on advanced biological threat protection, XCMR develops cutting-edge respiratory protection solutions leveraging UV-C technology, data fusion, and AI, aiming to revolutionize biodefense and biosecurity efforts for military and civilian populations.
Industries
Nr. of Employees
small (1-50)
Products
Near-field UV-C infection-protection devices (wearable, portable, stationary)
Device class that generates a controlled, continuous localized volume of irradiated air using UV-C to reduce exposure to airborne pathogens in close-contact settings.
Symmetrical-flow UV-C disinfection mask (prototype)
A prototype respirator that applies continuous UV-C irradiation to airflow during inhalation and exhalation to inactivate pathogens and reduce breathing resistance compared with traditional filters.
Parabolic reflectometry instrument for UV system evaluation
A measurement method and device to rapidly evaluate surface reflectivity under varying UV wavelengths to inform UV disinfection system design and optimization.
Near-field UV-C infection-protection devices (wearable, portable, stationary)
Device class that generates a controlled, continuous localized volume of irradiated air using UV-C to reduce exposure to airborne pathogens in close-contact settings.
Symmetrical-flow UV-C disinfection mask (prototype)
A prototype respirator that applies continuous UV-C irradiation to airflow during inhalation and exhalation to inactivate pathogens and reduce breathing resistance compared with traditional filters.
Parabolic reflectometry instrument for UV system evaluation
A measurement method and device to rapidly evaluate surface reflectivity under varying UV wavelengths to inform UV disinfection system design and optimization.
Services
R&D and prototype development for UV-C infection-prevention devices
Research, engineering and prototyping of wearable, portable and stationary UV-C systems for close-range infection protection.
Test method development and performance analytics
Creation of bespoke test methods, automation of experimental platforms, and analytics to assess performance and safety of far UV-C systems where standard test methods are insufficient.
IoT and AI integration for predictive infection analytics
Integration of cloud-connected sensors, data fusion, and AI models to deliver predictive visibility and adaptive responses for infection transmission resiliency.
Regulatory and standards advisory for UV-C applications
Advisory services and participation in standards development and test method committees relevant to UV-C device application and safe use.
R&D and prototype development for UV-C infection-prevention devices
Research, engineering and prototyping of wearable, portable and stationary UV-C systems for close-range infection protection.
Test method development and performance analytics
Creation of bespoke test methods, automation of experimental platforms, and analytics to assess performance and safety of far UV-C systems where standard test methods are insufficient.
IoT and AI integration for predictive infection analytics
Integration of cloud-connected sensors, data fusion, and AI models to deliver predictive visibility and adaptive responses for infection transmission resiliency.
Regulatory and standards advisory for UV-C applications
Advisory services and participation in standards development and test method committees relevant to UV-C device application and safe use.
Expertise Areas
- UV-C disinfection systems
- Near-field infection protection
- Wearable and portable device development
- Computational fluid dynamics and optical simulation
Key Technologies
- Far UV-C (200–230 nm) irradiation
- UV-C dose and fluence modeling
- Computational Fluid Dynamics (CFD)
- Ray-tracing and optical simulation