Innovations

This technology involves a method for generating hydrogen in an electrolysis cell. A proton exchange membrane (PEM) is used to separate anode and cathode chambers of the cell. The space between the anode and the PEM is filled with aqueous sulfuric acid. In use, gaseous sulphur dioxide is fed to the

The technology relates to a new generation of telecommunications and data processing technology with improved wavelength sensitivity in the visible and near-infrared wavelengths range rather than microwave communication in 2–4 GHz. The technology provides the realisation of optical sources (LEDs)

A system which harvests thermal energy from various sources such as sunlight, cars, power plants, factories and other industries, and converts it into electricity. The harvested heat energy is stored in a storage tank, with water used as an energy storage medium. This then flows along a gradient to

The need for accurate, rapid and sensitive detection of bio-molecules is becoming ever more pressing. The aforementioned are needed in several industries, ranging from clinical diagnostics and screening to assessing microbial contamination in water and even plant disease diagnostics, to name just a

A scalable pneumatic cushion features an array of pressure-controlled air cells, each equipped with a pressure sensor for closed-loop control. This allows for precise regulation of pressure in high-risk areas, promoting blood flow and reducing localized pressure. The system uses a microcontroller to

Advances in diagnostic technologies have expanded the use of saliva as a valuable testing medium. Saliva collection is simple, non-invasive, and avoids many of the challenges associated with blood or sputum sampling, making it highly suitable for point-of-care and community-based screening. As part

This technology utilises the unique properties of a specific type of biosurfactant to selectively recover metals from solution. Using comparatively low concentrations of biosurfactant, the metals can be recovered (and potentially valorised), and the surfactant can even be recycled back for further

The technology integrates melatonin with bio-identical estrogen to counteract the pro tumorigenic effects associated with estrogen. The research conducted demonstrated that combining melatonin with estrogen diminishes estrogen’s proliferative impact on breast cancer cells and attenuates their

The DarkLight™ Catalyst is an advanced, biosynthesised titanium dioxide (TiO₂) photocatalyst that functions efficiently without the need for visible or ultraviolet light. Developed through a green synthesis process using natural extracts from Hibiscus sabdariffa, the material features an oxygen

The technology relates to an innovative process for converting waste cooking oils to biosurfactants that are applicable to various industries. The process utilises a special yeast strain to convert waste into biosurfactant at competitive concentrations. The downstream process includes a bioreactor

The technology promises to be a new treatment for breast or oesophageal cancer. This drug candidate shows great promise in vitro at inducing cytotoxicity in cancer cell lines with similar activities to very potent clinical chemotherapeutics currently on the market. In addition, there are no similar

The PureLite Reactor™ provides a highly efficient and customisable platform for various applications. Its energy-efficient LED light sources, advanced control systems, and versatile design give researchers precise control over photochemical reactions, making it a vital tool in environmental science