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Showing 1 - 10 of 22 opportunities
Researchers at the University of St Andrews have developed a synthetic process for the preparation of a class of enantiomerically pure chiral amines. This efficient and economical method gives rise to entities of a varied structural class, which can be used as building blocks in the synthesis of bio...
Researchers at Heriot-Watt have developed a conductive polymer blend with low electrical impedance and good adhesion to a range of substrates.
A novel synthetic polymer matrix that overcomes current issues of stability and viability relating to scalable and reproducible generation of hepatocyte endoderm (HE) for cell-based therapy, drug and toxicology testing and for "fuelling" bio-artificial liver (BAL) devices.
These novel polymers are capable of aiding infection control by acting either as bacterial repellents or scavengers. Specific polymers can prevent the accumulation of bacteria or alternatively capture bacterial species, such as Salmonella and E. Coli, with a high level of selectivity.
This range of cell-specific, thermally-sensitive synthetic hydrogels allows cellular harvesting by transiently lowering the temperature. Unlike traditional methods, which are routinely used to harvest cells, temperature reduction is unlikely to cause the cellular damage or cleavage of cell surface p...
The University of Glasgow has developed Soluble Polymer Catalysts, using organocatalysts for chiral chemical production...
The Thermoelectric Sensor technology is a Nano-Calorimetric Sensor which measures very small changes in temperature. The IP provides a route to making the most sensitive calorimetric measurements (with a resolution of 0.1 mK).
The University of Glasgow is offering an exciting new model for the evaluation of new treatments for Parkinson’s disease
Researchers at The Robert Gordon University have developed a completely new type of porous carbon for high performance filtration. The materials provide a pivotal role in the successful development of key technologies to meet current societal needs in the critical areas of energy, purification and s...
SOMC is a new facility funded by a Research Development Grant and is located within the University of Aberdeen's Engineering and Chemistry Departments. At the heart of SOMC is a state of-the-art High Pressure-High Temperature (HP-HT) test facility that is dedicated to the needs of manufacturers and ...