Patents
cLab: a web portal to access, use and manage computational resources
The Computational Laboratory Web Manager (cLab) is a web portal that permits the access and the management of a computational laboratory, which is a high performance hypercomputation center based on heterogeneous clusters of computers and used by multiple users simultaneously for the execution of computational jobs. cLab is an internet based application that allows users to manipulate files and folders, prepare computational tasks, submit and control them while they are running, as well as visualize or store results. cLab therefore provide tools for the users as well as for the system administrator.
Purification of fullerenes by selective encapsulation mediated solid‐liquid extraction
A concave compound self assembles thanks to reversible and controllable hydrogen bonding to form a dynamic capsule able to selectively extract fullerene derivatives of given size and shape. The process for the separation of fullerene derivatives is based on a sequential selective encapsulation in an appropriate solvent system of the fullerenes contained in a mixture. The capsule is formed by reversible self‐assembly of two concave fragments. The encapsulation of the fullerene derivative having the best fitting geometry for the cavity of the capsule is fast and selective.
- Fast and simple purification process (requires only 2 filtrations)
- Capsule is recyclable • Fullerenes and their derivatives are high value chemicals
- No specific equipment required
- Economically and environmentally sustainable process
- Capsule opening is dynamic and easily controlled (fast controllable extraction)
- Possibility to purify functionalized fullerenes from unfunctionalized ones
- Possibility to purify endofullerenes
Process to obtain a trifluoromethylating composition
A process for the direct cupration of fluoroform has been developed. This exceedingly simple process employs only cheap reagents and is advantageously run at room temperature to produce CuCF3 reagents that are useful in trifluoromethylation reactions. Chemical compounds bearing a trifluoromethyl group are widely used in the production of various pharmaceuticals and agrochemicals as well as specialty materials, polymers, composites, building blocks, and intermediates for various needs. Fluoroform, CF3H, is an ideal source of CF3 because it is inexpensive, readily available in large industrial quantities, non‐toxic, and not an ozone depleter.
- clean production of trifluoromethyl reagents
- process works at room temperature and atmospheric pressure
- valorization of fluoroform (industrial waste)
- inexpensive and abundant trifluoromethyl source
- low‐cost reagents
The technology has been the object of a R&D collaboration between ICIQ and a global company of the crop protection sector, with the aim of finding new synthetic applications of industrial relevance for the developed trifluoromethylating agent.
Process for the preparation of methanol and methanol-derived products from carbon oxides
Chemical reduction of carbon dioxide to methanol and its derivatives (such as DME) is considered one of the key technologies to reduce both global warming and fossil fuels dependency. Unlike the currently used process for methanol synthesis, ICIQ’s process provides excellent conversions and selectivity to methanol in one pass through the reactor, thereby providing the highest time yield observed for the chemical reduction of CO2.
- High per-pass conversion
- High selectivity to methanol
- Use of conventional/commercial catalysts
- From CO2 to DME in one sole reactor
- Small reactor size
This technology has been the object of negotiations and scheduling of a joint development project associated to a progressive technology transfer scheme with a global petrochemical company. In spite of successful early negotiations, the company finally decided to retract. Plans for the creation of a spin-off company are currently being elaborated.
SCIPIO: a comprehensive software interface for computational chemists
SCIPIO is a software that allows to handle, store and manipulate output files from computational chemistry experiments. SCIPIO is a general data extractor and manager that is here presented as a Computational Chemistry Results Repository, which is a sort of tailored electronic notebook allowing for substructure searches and for the generation of “ready to publish” reports
- Web and Command Line (bash) interface.
- Visualization of chemical structures
- General search & Substructure search
- Automatic generation of “Supporting Information” PDF files for direct publication.
- Calculation and Plotting of “Reaction Energy Profiles” by combining multiple results
Ratiometric assay for the quantification of hydrolytic enzymes
A nanoparticle containing two different populations of chromophores and funcionalized with a dye-labelled peptide sensitive to the action of a hydrolytic enzyme has been developed. In that way, the optical response of the system can directly be correlated, in a quantitative manner, to the activity of a specific enzyme found in the medium where the nanoparticle is placed, thereby allowing for enzyme quantification. This technology was applied to cystic fibrosis, through the analysis of the trypsin amount of faeces samples. It was shown that this system could allow for the determination of patient’s phenotype, thus avoiding genetic testing.
- non-invasive diagnostic method
- accurate quantification of enzymatic activity
- method can be applied at point-of-care
- fast sample analysis
- Patient phenotype towards cystic fibrosis can be assessed
- Diagnostic platform is versatile
This technology has been further developed within a project of clinical validation of the diagnosis method funded by Fundació La Caixa. The cystic fibrosis application is currently the object of clinical trials in collaboration with Parc Taulí hospital in the framework of an ERC Proof of Concept project.
Bis-salphen compounds and carbon-based composite materials comprising them
A family of compounds able to form a network of rings interconnected by rods at the micro/nanoscopic scale through a self-assembly process has been developed. These compounds could successfully be incorporated into plastic materials in which the characteristic assembly is conserved. Within a polymer matrix containing carbon materials such as carbon nanotubes (composite material), the carbon particles aggregate around the self-assembled network, forming a network of dispersed and interconnected carbon materials, giving rise to e.g. lower percolation thresholds.
- Ease of implementation
- Compatible with organic solvents
- Improved properties of obtained material
- High processability of obtained materials (thermoplastic processes)
- Spontaneous dispersion of carbon nanotubes within the polymer matrix
This technology was developed through a partnership with the German company Polymaterials AG. A TECNIOSPRING grant (ACC1Ó) was granted for the development of commercial applications of the technology within a collaboration between ICIQ and Polymaterials AG, with a clear focus on market-driven research and technology transfer (project was abandoned by the research fellow in 2014). A joint collaboration with Ascamm technology center has then been established to pursue the validation of the technology according to industrial standards.
Pentafluoroethylation compositions
A process for the direct cupration of pentafluoroethane has been developed. This exceedingly simple process employs only cheap reagents and is advantageously run at room temperature to produce CuC2F5 reagents that are useful in pentafluoroethylation reactions. Chemical compounds bearing a pentafluoroethyl group are widely used in the production of various pharmaceuticals and agrochemicals as well as specialty materials, polymers, composites, building blocks, and intermediates for various needs. Pentafluoroethane, C2F5H, is an ideal source of C2F5 because it is inexpensive, readily available in large industrial quantities and non‐toxic.
- Clean production of pentaflyuoroethylation reagents
- Process operates in mild conditions (room temperature and atmospheric pressure)
- Valorization of pentafluoroethane (commonly used as a refrigerant)
- Abundant and cheap source of C2F5
- Cheap reagents
Polymer supported phosphoric acis and use thereof in the preparation of 3-indolylmethanamines
3-indolylmethanamines, and more particularly their chiral derivatives, constitute a relevant family of compounds for the crop protection and pharmaceutical industries. The invention provides a polymer-supported organocatalysts that is highly active and selective for the preparation of such compounds by Friedel-Crafts reactions. Being supported on a polystyrene resin, the catalyst is easily recyclable by filtration and can be used under continuous flow conditions, making it suitable for process intensification and the preparation of libraries of chiral compounds.
- air stable and metal free catalyst
- active, selective and recyclable catalyst
- catalyst is suitable for continuous flow applications (process intensification and/or preparation of libraries of compounds)
This technology will be further developed within a valorization project funded by Fundació La Caixa. It is part of the technology portfolio to be exploited by the technology platform ErtFlow, created in 2015 to foster a paradigm change from batch to flow processes in the fine chemical industry.
Resistive sensor for the quantification of benzene in the gas phase
Benzene is a volatile and toxic organic compound with strong regulations with respect to exposure. The developed sensor is highly sensitive and selective to benzene, and is based on a specific molecular receptor linked to a carbon nanotube through gold nanoparticles. Benzene recognition by the receptor provokes a bending of the nanotube, which affects the resistivity of the system.
- short response time
- highly sensitive (low levels of detection)
- wearable technology
- no latency between two consecutive measurements.
This technology has been developed in joint collaboration with the Rovira I Virgili University. A prototype is being developed by the group of E. Llobet at URV and discussions are ongoing with a catalan company for technology licensing and joint development.
Cobalt based catalyst for hydrogen generation from water in PEM cells
A new catalyst based on nanoparticles of cobalt oxide and carbon black has been developed for the generation of hydrogen from water in Polymer Electrolyte Membrane cells. Under high applied potentials (i.e. 2-3 V), the catalyst allows reaching a productivity of hydrogen similar or superior to that obtained using conventional platinum based expensive catalysts.
- cheap and robust catalyst
- catalyst is highly efficient (Pt like efficiency)
Potentiometric sensor for the quantification of creatinine in biological samples
A potentiometric sensor based on a calix[4]pyrrole receptor specific for creatinine recognition has been developed. The sensor is highly sensitive to creatinine, a biomarker relevant to muscle operation and kidney function. Creatinine quantification in urine samples correlates well with state of the art enzymatic methods (Jaffé).
- short response time
- highly sensitive (low levels of detection)
- wearable technology
- point of care device or potential use in telemedecine
This technology has been developed in joint collaboration with the Rovira I Virgili University. The URV team is participating to the first edition of the “Caixa Impulse” program and is willing to create a new company for technology development and commercial exploitation.
Analogs of (-)-Englerin A for the treatment of cancer, diabetes and HIV
New unsaturated analogs of (-)-Englerin A, a natural product highly active for the treatment of renal cancer, have been developed and found to be more active against certain types of cancers than the natural product itself.
- compounds are highly selective for determined types of cancer cells, potentially reducing undesired side effects
- this new family of compounds completes a family of existing drug candidates
This technology has been developed in joint collaboration with the National Cancer Institute (NIH, USA). The technology has been exclusively licensed to NIH for commercial exploitation and licensing to third parties.
Photocalyzed, metal-free synthesis of pyrrolidine compounds
A new method for the synthesis of pyrrolidine compounds and other heterocycles have been developed. The method involves the use of catalytic amounts of iodine and an oxidant under light irradiation, the substrate of the reaction being a butylamine derivative, which undergoes intramolecular cyclization under the conditions of the reaction.
- method is metal free and allows an easier product purification
- Regulatory approval friendly impurity profile
- Mild conditions and broad tolerance to the presence of functional groups on the substrate
Co-polymerized fluorinated proline derivative as immobilized organocatalyst
A new polymer-bound catalyst based on a fluorinated proline derivative for nitroaldol reactions has been developed. The catalyst is prepared by co-polymerzation and is highly active, robust and recyclable, while offering a high chiral induction in nitroaldol reactions.
- Catalyst is prepared by co-polymerization
- Catalyst is suitable for continuous flow applications
- High efficiency and selectivity in Michael additions
This technology is part of the technology portfolio to be exploited by the technology platform ErtFlow, created in 2015 to foster a paradigm change from batch to flow processes in the fine chemical industry
ioChem-BD: a comprehensive software for computational chemists
ioChem-BD is a piece of software allowing for the handling, storage and management of the output files of computational chemistry experiments.
ioChem-BD allows for substructure searches and the generation of reports and ready-to-publish materials to make the life of the computational chemist easier.
- Web interface and command line
- Chemical structure visualization
- General and sub-structure search
- Automatic creation of pdf files for ready to publish materials.
- Computation and draw of energetic profiles for chemical reactions.
This technology has jointly been developed with the Rovira i Virgili University. Conditions for joint ownership have been determined and the distribution of the software (beta version) has been launched This project is benefiting from a ERC Proof of Concept grant to ICIQ.
License information: http://www.iochem-bd.org/
Solid sample holder for spectroscopic measurements in cryostats
A sample holder equipped with a circuit of optic fibers and a lens system has been developed, so that it allows the measurement of the spectroscopic properties of solids and other materials when those are placed under controlled environments, such as within a magnetometer or a cryostat.
- cheap solution to bring light to the material and rec-collect and analyze the light passed through the sample
- the device allows studying the optical properties of materials and may unlock new applications for materials
This technology has been granted an ERC Proof of Concept grant for the development and commercialization of the sample holder. Project is to be started in 2016.
Continuous flow preparation of Wieland-Miescher and Hajos-Parrish ktones
A tert-leucine derivative has been successfully anchored onto a polymeric support and shown to be a highly active and selective catalyst for the preparation of the Wieland-Miescher and Hajos-Parrish ketones from readily available starting materials. This catalyst allows for continuous flow preparation of these key building blocks, for the large scale preparation of several natural products and pharmaceutical ingredients.
- catalyst is recyclable and suitable for flow applications
- catalyst is highly selective
- prepared compounds are key intermediates in the preparation of a broad range of fine chemicals, natural products, and pharmaceutical ingredients
This technology is part of the technology portfolio to be exploited by the technology platfor ErtFlow, created in 2015 to foster a paradigm change from batch to flow processes in the fine chemical industry.