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 | Seeking Recycling technologies for biodegradable films |
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We are looking for solutions to convert bio-based packaging back to starting materials or other high-value added chemicals (no fuels). |
| | Seeking Technology for extraction/limiting absorption of oil/hydrophobic fluids |
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New technologies/IP that identify new technologies for oil extraction or preventing absorption of lipids in a porous matrix e.g. potato chips. These technologies can be outside of the food industry such as pharmaceutical, petrochemical to enable oil/hydrophobic fluid removal/reduction. Key areas of focus: 1) Tech limits absorption of hydrophobic fluids (e.g. high temperature post frying to promote oil drainage) 2) Tech that extracts hydrophobic fluids (e.g. steam stripping, centrifuge, super-critical CO2 extraction, ultrasonic) 3) Tech that prevents creation of a porous matrix when exposed to thermal energy (e.g. (pre-treatments such as pulse electric field)) |
| | Seeking Recyclable Closure for Paper Beverage Bottles |
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We are seeking technologies for a re-closable fiber-based closure for a paper beverage bottle that can be recycled in the paper stream. |
 | NanoMEDIC gene editing delivery system |
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Background Gene therapy holds great potential for the treatment of genetic diseases. However, delivery to specific tissues is still a major bottleneck. Although AAV-delivered CRISPR-Cas9 editing is being developed for multiple diseases, its therapeutic translation is hindered by the limited packaging capacity of viral particles and possible immune response to them. Moreover, AAV transgenes tend to be expressed for an extended period of time, which increases off-target mutagenesis risk. Extracellular vesicles (EV) is another option and, when combined with ribonucleoprotein (RNP) delivery of CRISPR-Cas9, reduces off-target effects. The structural polyprotein Gag is typically used to package cargo into EVs, which nevertheless limits the EV packaging capacity. The present invention is an all-in-one EV delivery system termed NanoMEDIC (nanomembrane-derived extracellular vesicles for the delivery of macromolecular cargo). It is a transient EV-based CRISPR-Cas9 editing delivery system which ensures efficient genome editing in various cell types. |
 | Technologies for the improvement of the mobility of people with motor affectation |
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The research group "Multisensorial analysis and recognition" from Alcalá University has developed different technologies: a walker, a wheelchair for children of early age, a multisensory cabin and a spoon, to improve the lifes of people with certain motor affections. These inventions are part of the "Padrino Tecnológico Program", which has been designed by the research group itself, to raise funds for the development and adaptation of technical aids that cover the needs detected in people with low personal autonomy. The group seeks collaboration agreements with institutions or companies that want to be part of the "Padrino Tecnológico Program”: http://padrinotecnolognolog.org/proyectos/instituciones/ The group also want to reach license, collaboration, manufacturing or commercial agreements with technical assistance with orthopedic companies, medical equipment, and health technologies. |
 | LSF: B2B Chemtech, UK & NL, Angel round with lead investor, ≈40% funding secured |
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LSF is a Chemtech business based in Amersham, UK, with extensive industry experience. A B2B operation, generating revenue from customers Proof of Concept (PoC) testing and a roadmap to deliver the first demonstrator facility. The LSF process accepts used solid or liquid, hydrocarbon-containing, feedstock materials. The process gasifies the feedstock and then using a liquid electrolyte, oxidation and saturation reactions are initiated. These reactions produce a recovered, saturated condensate and a solid, raw Carbon Black output. LSF's recovered condensate is of a higher quality and has far lower contaminants than its competitors and the rCB has been tested as suitable for vehicle and industrial rubber components. LSF has patented the core technology and the novel application of electrochemical processing of hydrocarbon-containing feedstocks. UK & US patents granted with EU patent expected to be granted in Q1, 24. |
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