Innovations

The North-West University (NWU) has developed and patented a method for producing hydrogen via hydrolysis, using an activated aluminium compound. Technology Benefits: Aluminum also can be recycled after the hydrogen production process. Hydrogen can be produced under high pressure. By-products are

The CSIR has established a bioconversion platform that focuses on alternative pathways for chemical production. The platform is geared towards local production and replacing imports of bio-based platform chemicals, including lactic acid. This shift will have a direct impact on the bioeconomy. The

CEILING IN A CAN (CiC) is a patented innovation that aims to create better-living conditions for indigent people by providing an instant ceiling. This fresh technology originating from MUT involves two 5 litre cans containing different polymers. By spreading newspaper on the floor and mixing the two

Air quality is a concern worldwide. Consequently, efficient means to monitor air pollutants are critical. Current commercially available carbon-based sorbents used for sampling volatile organic compounds (VOCs) in air typically require solvent extraction prior to analysis, and they cannot be reused

With our society facing challenges related to sustainability i.e. resource depletion and waste accumulation, the future success of the chemical and polymer industries relies on the use of renewable feedstocks. Lignin, one of the main components of non-edible lignocellulosic biomass shows great

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 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

Given the ongoing global drive for sustainable development, the chemical and polymer industries are investigating alternative green and renewable sources for their raw materials. This technology addresses how a waste product from the agricultural and agroforestry industries can be valorized through

Phycocyanin is an approved natural colourant for food and cosmetic applications in both the United States and the European Union, and the scientific basis of the extraction process is sound. The patent family relates to a process for extracting phycocyanin, a blue pigment, from wet or dry Spirulina

MagNanoClean™ is an innovative method and apparatus for fluid treatment that leverages charged nanoparticles and a moving magnetic system to remove impurities efficiently and sustainably. In this process, contaminants are trapped by the charged nanoparticles suspended in a reactor. When activated

The technology is a membrane-based system developed from waste expanded polystyrene (EPS) using electrospinning to create a nanofibrous material with superhydrophobic (water-repelling) and superoleophilic (oil-attracting) properties. It enables crude oil adsorption, recovery, and membrane