Institute of Chemical Research of Catalonia posted this:ERTFlow: flow reaction technologies and process intensificationERTFLOW is a technology development unit from the Institute of Chemical Research of Catalonia (ICIQ), generated by the know-how produced by the research group of Prof. Miquel Pericàs, to develop and implement technical solutions in process intensification. Our goal is to develop propietary technologies related to catalysis and flow chemistry and offering products and services to the fine chemical, pharmaceutical and biotechnological industries for the production of new products with high added value and guide them in the paradigm change from batch to flow.
Universidad de Alcalá-OTRI posted this:Heterogeneous NCH complex of palladium and their uses as recoverable catalysts.AA research Group from the Department of Organic Chemistry and Inorganic Chemistry at University of Alcalá (Spain) has designed catalysts suitable for organic synthesis processes based on supported N-heterocyclic carbene (NHC) complexes of palladium, which are magnetically separable after their use, reusable and resistant to metal leaching, and useful in carbon-carbon coupling reactions. The group is looking for companies in the chemical and pharmaceutical sectors to reach licensing agreements or collaboration and commercial agreements for technical assistance.
Universidad de Alicante posted this:New family of dyesThe main innovative aspects of this technology regarding current methods of synthesis are: • The indolizine dyes are obtained in one step from commercially available materials, unlike current procedures, which involve multiple steps. This is an advantage in the production process, as it reduces costs, increases the final yield and less waste is generated. • The procedure is based on a very simple treatment which produces indolizine dyes in yields higher than 70%. • The present invention does not require the use of inert atmosphere, dry solvents or physical activation (heat or radiation) to obtain the final product. • Unlike other methodologies for preparing indolizine dyes (requiring temperatures around 100°C), this process is carried out at room temperature and atmospheric pressure, which simplifies the method and decreases production costs. • This is an environmentally friendly technology because it does not use solvents such as dioxane, pyridine, chloroform or benzene, which are used in other methods and are characterized by their high toxicity and demonstrated carcinogenicity. • The selectivity of the reaction is very high. The indolizine dye is obtained with absolute control, obtaining a single isomer of the ten possible.
Fundació URV posted this:Hidracot, Organic Matter Removal (CatalyticAdvanced Oxidation, COD < 5.000 ppm)Catalytic Advanced Oxidation technology removes the organic matter at atmospheric pressure and mild reaction temperatures (< 60 ºC) getting clean and reusable water. It is a simple process that uses very mild operating conditions and does not require complex systems. It is a clean technology, and does not generate waste or by-products, with low power consumption and small space requirements compared to biological treatments. The organic pollutants are oxidized to CO2 gas obtaining conversion values around 99%.
uacoopera posted this:Asymmetric heterogeneous catalysts: new methodology that allows the effective immobilisation of a high cost commercial bis (oxazoline) onto porous solid supportsThe present invention presents the following advantages in relation to the existent technologies: the materials prepared by this methodology are efficient heterogeneous catalysts in the asymmetric benzoylation of 1,2-diols, and eventually in other asymmetric organic transformations, can be easily filtered at the end of the liquid phase reaction and reused in more catalytic cycles without loss of catalytic activity and enantioselectivity.
biochemize sl posted this:Technological platform focused on biocatalysis to perform chemical reactions capable to substitute manufacturing processes (technology needed, timing, yield, costs, risks) based on classical organic chemistry.Our biotechnology CRO designs, optimizes and develops industrial-scale bioprocesses for the production of active pharmaceutical ingredients and other molecules with high added value, by using the platform of scientific and technical biocatalysis and microbial fermentation, which has developed several novel reactions in this field are offered in chemical and pharmaceutical companies to collaborate in reducing the operating costs of their processes by applying these techniques.
Technology Transfer Office
Institut Català d'Investigació Química (ICIQ) posted this:Precursors of linear polyacenes: entry door to new semi-conductor materialsA new strategy for the preparation of precursors of linear acenes has been developed. The developed acene precursors are hydrogenated acenes and are stable upon storage. They can be prepared in several synthetic steps using two catalytic key preparation steps. The precursors can be deposited onto surfaces and submitted to annealing to generate the linear acene. This strategy afforded the first-ever preparation of undecacene.
Melvyn Ho posted this:
Open Innovation Manager at Clariant
uacoopera posted this:
Licensing Manager at uacoopera
uacoopera posted this:
Licensing Manager at uacoopera