The ICP delivers the scientific capacities and technological achievements of our institute to a wide number of socio-economic sectors at both national and international levels (companies, public organisations etc.) via our Unit of Know-how management (UGC). Our principal objective is to achieve that research carried out at the ICP-CSIC is transformed into a social, economical and cultural wellbeing.
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Nano-particulate solid for water disinfection

2017
CSIC has developed a solid photocatalyst with biocide activity which can be used for water disinfection in drinking water or sewage water. The main difference with other photocatalyst is the ability to be activated by a wide spectrum of radiation which goes from infrared to ultraviolet light; making possible the use of solar light for activating the biocide effect.  
An industrial partner interested in manufacturing this solid under a license agreement for its application in water treatment plants, or in water supply systems, is sought.

Catalyst for synthesis gas (syngas) production using carbon dioxide (CO2) and methane (CH4) as precursors

2016
The CSIC, in collaboration with CONICET, has developed a novel catalyst with high porosity, high dispersion of the active phase and high resistance to temperature, for being used in water gas shift reaction and in partial oxidation of methane. The solid catalyst exhibits a high activity per mass unit, decreasing therefore the amount of solid required for the reaction.
An industrial partner interested in the use of this catalyst for syngas production, under patent licence, is sought.

Improved enzyme for metabolites and drug synthesis

2016
The Institute of Catalysis and Petrochemistry has generated a proteic variation of the peroxigenase from the Agrocybe aegerita fungi, with enhanced properties of catalytic activity, stability and heterologous expression capacity. The mutant enzyme has been designed to be applied in aromatic hydroxylation reactions, especially for 5’-hydroxipropranolol synthesis. Enzyme producers, or pharma companies, interested in the use of this enzyme for the production of human drug metabolites and other drugs, under patent license, are sought.

Universal method for enzyme immobilization

2016
The CSIC has designed a novel universal method for the immobilisation of enzymes which can be applied with no dependence of its size or its nature. The supports used are metal organic framework (MOFs) that entrap the protein into their solid structure. The method is simple and cheap and leads to solid biocatalyst with slight losses of their activity.
Manufacturers of enzymes and chemical companies interested in the use of this method, under patent license, are sought.

Biocatalyst for 1-naphthol production

2016
The CSIC, through its Institute of Catalysis and Petrochemistry, has generated a proteic variation of the peroxigenase from the Agrocybe aegerita fungi, with enhanced properties of catalytic activity, stability and heterologous expression capacity. The mutant enzyme has been designed to be applied in aromatic hydroxylation reactions, especially for 1-naphthol synthesis, being a green alternative to the traditional chemical process.
Companies interested in the enzymatic production of 1-naphthol using this biocatalyst, under patent license, are sought.
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