Invitrotek ltd. Sti. (Istanbul, turkey) and pronto diagnostics ltd. (Tel aviv, israel) will collaborate in developing an assay, based on the targeted next generation sequencing to detect mutations in all thalassemia cases.
To develop a lightweight air turbine engine which applies an innovative method for thrust generation therefore consumes significantly less energy while at the same time has a lightweight feature due to its special design of composite materials.
Retorik project aims to develop an innovative platform of services and tools in artificial intelligence
Powder detergent production includes energy intensive processes in terms of thermal and electrical energy consumption. In this project, we will develop a pioneering process to valorise all contents of exhaust gas into value added resources, which will bring "zero emission concept" into reality.
To develop technologies enhancing the lifetime of forming and forging dies by means of hard layers deposited and sintered by laser beam. Design concepts of hot working dies will be optimised in order to lower the tooling costs and optimize the material exploitation.
Hipdriver is a subscription based driver improvement portal. the subscription consist of a driver feedback and risk performance service, a telematics device to be placed in the cars to collect and transmit data about current driving style and car status, a market place with solid incentives.
Design and construct a compact system for cleaning and deodorization of the oil produced in pyrolysis end of life tyres (elt). With a size adequate to the small and modular size of pyrolysis plants. This enables decentralize models adequate to elt distribution.
The technology refers to integrated recycling of domestic and industrial waste textiles and thermoplastic waste towards innovative pellets. Such tailored semifabricates can be further submitted to different thermoplastic technologies for multisectorial applications.
The final project objective is to develop bifacial solar cells and modules using upgraded metallurgical grade silicon. The aim is to demonstrate the "proof of concept" of a bifacial solar cell structure applied to a low-cost poly-si raw material.
The project goal is to develop innovative technologies for efficient use of auxiliary materials with low toxicity in leather processing for footwear uppers and lining