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.
DIT Hothouse posted this:iSeal: Advanced Surface Treatment for Protection against TribocorrosionThis invention is based on the application of a hybrid organic/inorganic treatment onto an exposed surface – either as a stand-alone treatment or as a sealant. The treatment is applied using an electrochemical deposition technique, allowing for the development of conformal coatings, irrespective of design complexity. Layer thicknesses are low (10-100nm) but resistance in corrosive marine environments indicate corrosion rates comparable to technologies currently employed by the aerospace and automotive industries. Corrosion rates are reduced by between 103 and 105 times, dependant on the nature of the porous coating. Tests on metallic coatings indicated a reduction in corrosion rates of approximately 103-104 while tests on ceramic coatings indicated a reduction in corrosion rates of approximately 105. By applying the hybrid treatment as a sealant treatment onto a porous wear resistant coating, concerns regarding the effect of mechanical damage are dramatically reduced. In addition, surface roughness levels are similar to electropolished finishes.
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.
Universidad de Alicante posted this:Novel procedure for polymeric foams with various applications from waste plastics.The research group "Processing and Pyrolysis of Polymers", Department of Chemical Engineering at the University of Alicante has developed an innovative process that allows recycling of different types of plastics (EVA, polyethylene, polypropylene, polyurethane, polymer melt, foam, rubber or any combination thereof) to transform in a simple and economical ways products with applications in various industrial sectors. The group is looking for companies interested in acquiring the technology for commercial exploitation. Innovative aspects The inclusion of waste plastic (EVA, polyethylene, polyurethane, polypropylene, polymer melt, foam, rubber, etc. Or any combination thereof) in the composition, permits its recycling in a simple and cheap, and that current procedures are difficult and very expensive. Together with a chemical foaming and dispersion of ferrites in the composition, applies the energy necessary for the cohesion of the materials by microwave. Ferrites dispersed in the mixture capture and transmit microwaves heat required for foaming in every part of the obtained mass. With this new procedure, getting pieces of great uniformity, stability and thickness that determines the user (up to 25 cm. in diameter) at a low cost and quick way.
Ranjit Guru posted this:
Chief Technology Officer at Delta Foams Radical Technology Solutions
Technology Transfer Office
RAMOT at Tel Aviv University Ltd. posted this:Iron oxide nanoparticles (IOP) for the treatment of acute myocardial infarction (AMI) and other inflammatory conditionsA novel approach for the treatment of AMI has been developed using IOPs. IOPs, when injected into the infarcted myocardium, lead to improved heart function after MI. IOPs activate anti-inflammatory macrophages and thus promote tissue healing and repair and prevent myocardial remodeling and dysfunction. Potential Applications IOPs can be used to treat AMI and other inflammatory conditions associated with pro-inflammatory activated macrophages and to promote tissue healing and repair. Advantages ? IOPs are nontoxic ? IOPs are FDA approved for use in humans for MRI imaging Stage In vivo studies in mouse and rat models of MI and heart failure Project ID : 10-2011-247
Ivan Rodriguez Rosello posted this:
Licensing Manager at Universidad de Alicante