


A Sanitising light that is safe to use around people and animals.
Illuminate Your Space While Actively Sanitising it.
The solution is a patented, UV-free LED technology designed to sanitise environments. It effectively reduces bacterial and viral loads on surfaces and in the air, creating a healthier living space.
UV-Free Sanitisation - Harnessing the power of safe, visible light to eliminate harmful pathogens.
Patented Technology - Innovative design backed by scientific research and rigorous testing.
LED Efficiency - Energy-saving lighting with long-lasting performance and environmental benefits.



The light emits a specific spectrum of visible light that interacts with pathogens at a cellular level. This interaction disrupts their ability to reproduce, effectively reducing their presence in the environment. It's a continuous, passive sanitisation process. With the lights illuminating and sanitising the area, people can work as usual without interruption, as the light is harmless to both people and animals.
Emits a safe, visible light.
The light disrupts pathogen reproduction.
Reduced bacterial and viral loads.

Peer-Reviewed Evidence: Visible Light Reduces TB Bacteria
New peer-reviewed evidence for Biovitae® antimicrobial lighting (400–420 nm visible spectrum). Tuberculosis (TB) remains one of the world's most significant airborne infections, affecting millions annually. With drug resistance on the rise, innovative approaches to reducing transmission are more critical than ever. This groundbreaking study demonstrates that visible light technology can achieve over 99% reduction in TB bacteria under controlled laboratory conditions, offering a new tool in the fight against indoor infection spread. Lab study on samples (CFU counts); real-world performance depends on design, placement, and exposure.
This technology offers a multitude of benefits, from enhancing safety to improving well-being.
Reduces the risk of infection from bacteria and viruses.
Energy-efficient LED technology minimises environmental impact.
Creates a healthier, cleaner living environment for enhanced quality of life.








University of Birmingham
"The rise of antimicrobial resistance poses a severe threat to global health. Our research with Biovitae visible light technology presents a promising, sustainable solution to reduce microbial contamination".
Dr Helen Onyeaka, School of Chemical Engineering
Researchers are assessing a new lighting technology that could help reduce harmful bacteria, offering a potential breakthrough in combating antimicrobial resistance.
This technology uses specific wavelengths of visible light, which microbes are known to be sensitive to, allowing it to be integrated into standard lighting systems. When used in light fixtures, it can continuously sanitise surfaces without the need for chemicals.
Experts at the University of Birmingham have been evaluating its effectiveness against bacteria such as E. coli and Listeria, both common causes of foodborne illness. Preliminary findings suggest a significant reduction in bacterial populations on surfaces like glass and stainless steel, indicating its potential for improving food safety and public health.
A research team, including Dr. Helen Onyeaka, Associate Professor of Food Microbiology, and Dr. Taghi Miri, Assistant Professor of Sustainable Food Processing, will present their findings at an event in Geneva.
Dr. Onyeaka highlighted the importance of tackling antimicrobial resistance, stating, "This research presents a sustainable way to reduce microbial contamination and support better hygiene practices." Dr. Miri added that the technology aligns with sustainability goals by offering a non-chemical solution for pathogen control.
The event will gather experts from various fields to discuss innovative strategies for addressing antimicrobial resistance. Speakers include international health officials, academics, and researchers specialising in public health and food safety.
This development could pave the way for a new approach to hygiene and infection control, offering a continuous and chemical-free method to combat harmful bacteria in various environments.
Suitable for a variety of applications, from homes and offices to hospitals and schools.
Reducing infection rates in hospitals and clinics.
Creating healthier learning environments for students.
Improving air quality in offices and retail settings.
Clostridioides difficile Transmission in ICU Study


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Understanding and Addressing the Health Risks of Damp and Mould in the Home
Everyone has the right to a warm, secure and decent home and to be treated with dignity and fairness. Yet many people in England are living in a home with damp and mould, which may put their health at risk. Estimates of the number of homes in England with damp and mould range from 4% to 27% of homes, or 962,000 to 6.5 million households. The reported figure varies due to differences in how damp and mould is measured and how it is reported. People living in private or social rented housing are more likely to live in a home with damp and mould than are owner occupiers.
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Awaab Ishak: Deadly Impact of Housing Neglect
The tragic death of two-year-old Awaab Ishak in December 2020 represents a profound failure of social housing responsibilities and tenant welfare. This presentation examines the circumstances that led to this preventable tragedy, exploring the medical evidence, housing conditions, and systemic failures that contributed to Awaab's death from prolonged mould exposure.

Legal Obligations of Landlords and Local Authorities
In the UK, landlords and local authorities have a legal duty to ensure that rental properties are safe and free from health hazards, including mould. The Homes (Fitness for Human Habitation) Act 2018 requires landlords to maintain their properties to a standard fit for human habitation throughout the tenancy. This includes addressing issues like damp and mould.
Those with weakened immune systems or chronic lung diseases are at a higher risk of developing fungal infections when exposed to mould.
Symptoms such as sneezing, runny or blocked nose, red or itchy eyes, and skin rashes are common.
Individuals may experience coughing, wheezing, throat irritation, and, in severe cases, asthma attacks.
Long-term exposure to mould has been associated with the development of asthma, particularly in children.

Fantini Cosmi Retrofit Mechanical Ventilation with Heat Recovery (MVHR):

How does MVHR Improve Air Quality?
MVHR improves indoor air quality by continuously removing stale air that contains dust, allergens, and moisture while supplying clean, filtered air. It helps reduce problems like condensation and mould growth and creates a healthier living environment. You can also consider a single-room heat recovery ventilator to keep pollutants out while making your indoor air fresh and clean.
How does a Single-Room Heat recovery Unit Work?
A single-room heat recovery system, also known as a Decentralised Heat Recovery System, is a simple and effective solution for improving air quality in existing buildings. These systems are designed to be easily installed in a single room by going through the wall. They work by continuously replacing stale, moisture-laden air with fresh, filtered air from outside. The fresh air is also heated to ensure your home stays comfortable.
The Benefits?


Richard Wade - Director
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