Institute of Chemical Research of Catalonia posted this:Crysforma: services in pharmaceutical solid state developmentCrysforma provides complete scientific support for the discovery, analysis and scale-up of polymorphs, hydrates, amorphous phases, salts and co-crystals of active pharmaceutical ingredients or intermediates. Crysforma has developed its own crystallization screening methodology based on the combination of several crystallization procedures. We use high-throughput crystallization systems controlled by highly skilled scientists to maximize the information drawn from each experiment. Our projects are always carried out in close collaboration with the client, adapted to the customer's needs and under strict confidentiality conditions.
uacoopera posted this:Lighting device with adjustable white light based on zirconia nanostructuresA group of researchers from a Portuguese university has developed the concept of a lighting device with adjustable white light based on zirconia nanostructures. The invention aims to control the color temperature of white light emission that is different depending on the morphology/dimension of the particles, on the surrounding environment and on excitation power. The advantage of this type of device is based on the high color quality index and the possibility of color temperature control that is relevant to the lighting technologies market. The university is looking for companies that develop this type of solution on an industrial scale. The university is looking for companies that develop this type of solution on an industrial scale for the further joint development of specific applications or technology licensing.
uacoopera posted this:Optical pressure sensor based on zirconia nanostructuresA group of researchers from a Portuguese university has developed the concept of a gas pressure gauge based on the control of the luminescence from zirconia nanostructures. The invention aims to measure the gas pressure based on the nanoparticles emission that is different depending on the amount of gas molecules surrounding the nanoparticles. Comparing with existing solutions, the advantage of this process, which operate in a pressure range of interest for various market sectors (ex. Food industry), is the absence of electrical contacts. The university is looking for companies that develop this type of solution on an industrial scale for the further joint development of specific applications or technology licensing.
Universidad de Alicante posted this:New process for the manufacture of electrodes from superporous nanostructured carbon materialsSpanish University have developed a process for the manufacture of electrodes from superporous nanostructured carbon materials. The process uses electrospraying technique to deposit a suspension of a carbon material over a collector. This method facilitates processing superporous nanostructured carbon materials due to its high efficiency and less complexities compared to conventional techniques. The electrodes obtained can be used in energy storage or analytical sensors in commercial devices.
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:New organo-metallic catalysts for the manufacture of polymersA research group from the Inorganic Chemistry Department of Alcalá University has developed a technology that presents a range of catalysts based on coordination complexes and organometallic, active in functionalization processes (expoditation, hydrosilylation) and polymerization of different organic substrates (olefins and cyclic esters). They are metal complexes belonging to the first transition groups (groups 4-6) and elements from the main groups (groups 1,2 and 13). Its application is aimed at the synthesis of materials with new properties (silicon polymers, biodegradable plastics, polyesters) and the production of small molecules with high added value, used as starting products in many industrial processes (epoxides, silanes). The group is looking for manufacturing agreements and joint venture agreements with companies from the agrofood industry, construction and petrochemicals.
Universidad de Alicante posted this:Multicapillary nebulizer for simultaneous nebulization of two or more liquids A Spanish university research group has developed a new pneumatic multicapillary nebulizer which allows the simultaneous nebulization of two or more liquids, miscible or immiscible between them. This device offers the possibility of simplifying the analysis process, reducing the consumption of resources and a high mixing efficiency is achieved. A laboratory-constructed prototype is available for any demonstration. The research group is looking for companies interested in license agreement.
Centre Technology Transfer CITTRU posted this:Method of isolation and purification of xanthophylls from diatom cultureXanthophylls, with their antioxidant, anticancer, anti-inflammatory and neuroprotective properties, found important applications in food and nutrition, cosmetic and environmental industries, as well as pharmacy and medicine. Diadinoxanthin (Ddx) and diatoxanthin (Dtx) are two pigments that belong to xanthophylls family. The availability of Ddx and Dtx on the market is low and up to date limited as they are sold exclusively in small quantities at extremely high prices to be used as HPLC calibration standards. The solution of the above mentioned problems is the 5-step method for the isolation and purification of Ddx and Dtx developed at the Jagiellonian University..
Universidad de Alicante posted this:Innovative procedure for the preparation of silica fillings without shrinkageThe research group Carbon Materials and Environment of the University of Alicante has developed a procedure to prepare silica fillings preventing their shrinkage by the deposition of a thin film prior to the synthesis of the filling. Modifying the said thin film, the filling properties are modified, obtaining highly satisfactory results in the case of the mesoporous thin films in all case studies. This method also allows obtaining silica fillings with different diameters and their incorporation into different types of supports such as glass, steel or honeycombing cordierite monoliths. Following this procedure the shrinkage of the fillings is avoided, which is a common occurrence with the established preparation protocols.
Universidad de Alcalá-OTRI posted this:Disposable electrodes based on filtered nanomaterials.A Spanish research Group from Analytical Chemistry, Physical Chemistry and Chemical Departments at University of Alcalá (Spain) has designed and developed different disposable electrodes constituted exclusively by conducted nanomaterials for analytical measurement of electroactive molecules for (bio-) sensoric in relevant areas such as health, agri-food and environmental. The group is looking for companies in the chemistry, clinical, agri-food and environmental sectors to reach licensing agreements or collaboration and commercial agreements for technical assistance.
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 Alcalá-OTRI posted this:Improved process for selective oxidation of sulfide groups to sulfone by silsesquioxane catalysts.A Spanish-Portuguese research group from the department of Inorganic Chemistry at Alcalá University and ITQB-Universidad Nova of Lisboa of Oeiras, has developed a process of synthesis of titanium silesquioxane compounds and its applications in oxidation catalyst of organic sulphur compounds. The group looks for licencing agreements and commercial or collaboration agreements with pharmaceutical and petrochemical industry, and those industries in charge of the fertilizer preparation and production of compounds for the treatment of environmental problems.
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Yissum - Research Development Company of the Hebrew University posted this:Nanoparticle Coatings Based on Hydrogen Peroxide Sol-Gel Processing of Metal OxidesCluster2 Platform technology for wet chemistry coatings of oxides Keywords: process, wet chemistry, batteries, transition metals, Project ID : 9-2010-2490
Universidad de Alicante posted this:Black titanias for photocatalysis, solar cells and environmental applications• The titania is black, and then absorb in the whole visible range (band gap 2.74 eV) and maintains its photocatalytic activity at least after 5 cycles reaction with an efficiency of 95 %. • The synthesis process is simple, inexpensive and versatile (a wide variety of functional compounds can be incorporated in the structure of the titania lattice avoiding blocking the mesoporosity and maintaining the anatase structure). • Excellent thermal and hydrothermal stability. The functionality is incorporated into the structure of the titania being protected thereby.
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.