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 | Seeking Materials and Technologies for Green House Gas Reduction in Packaging |
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We are seeking technologies that will reduce GHG emissions during packaging production or over the entire lifecycle of PET bottles, aluminum cans, and glass packaging (and other types of packaging) without sacrificing packaging quality. Resources Available when collaborating with PepsiCo • Access to PepsiCo expertise - Work directly with PepsiCo’s team of scientists and engineers with deep experience in materials science, packaging and bringing new products to market at massive scale. |
| | Seeking new technologies to minimize salt perception in beverages containing electrolytes |
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We are seeking new technologies to minimize salt perception in beverages containing electrolytes. New technologies may include the following: • Taste advantaged salts, other mineral ingredients, or blends that can mask/balance saltiness • Encapsulation/plating technologies to reduce saltiness perception • Ion exchange/ion binding to remove salty tasting anions • Salt receptor blockers |
 | Seeking Solutions to reduce its direct CO2 emissions in scopes 1 and 2 in various stages of our value chain |
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As a global off-grid gas distributor, SHV Energy is looking for practical solutions focused on: - Efficient Transportation & Logistics to build future-proof and environmentally friendly operations. - Smart Facilities for efficiency and renewable power generation in filling plants, offices and depots. - We are also looking for Decision Support Systems to ensure the CO2 hotspots in these areas are identified, measured, managed, and acted upon. If you are a startup with a ready to implement, test or scale solution that can work together with us to reduce our CO2 emissions this call is just for you! |
 | Innovative electrochemical reactor for economical and efficient regeneration of spent activated carbon |
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The University Institute of Materials of the University of Alicante has developed an ingenious electrochemical reactor that allows the regeneration of spent activated carbon from different industries with an efficiency between 90-100% quickly, selectively, very economically and in the same facilities where the spent activated carbon is located. Moreover, it is an environmentally friendly technology. This new reactor has two possible configurations and is very versatile, since it allows the regeneration of more than 100 kg. of activated carbon saturated with pollutants from different industries, such as: wastewater treatment, water purification, gas and liquid purification, metal recovery, food and beverage production, chemical and pharmaceutical industry, etc. It is looking for companies interested in acquiring this technology for its commercial exploitation through patent license agreements. |
 | Environmentally friendly graffiti remover |
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Graffiti has become a hurdle for most cities, public transportation and private owners, to maintain their infrastructures clean with ease at reasonable costs. Our solution is looking to solve the need of a product that truly works in multiple surfaces, in a relatively short time, without specific safety equipment and training and without any human safety risks (e.g.: strong chemical solvents), while not damaging the original surface. A user-friendly product, that can be used both by professionals and individuals, and that’s also environmentally friendly. We believe it’s hard to find a solution that truly works while tackling all these needs. Link to a video to see its performance: https://youtu.be/bw025FbYmtQ |
 | PSA purification and concentration from urine samples for non-invasive early stage diagnosis of prostate cancer |
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New method for the pretreatment of human urine sam-ples, comprising the simultaneous extraction, concentration and purification of the prostate-specific antigen (PSA), a prostate cancer biomarker. In this technology, aqueous biphasic systems composed of ionic liquids and salts are used. These systems allow the selective extraction of PSA and to obtain high con-centration/enrichment factors, enabling the quantification of PSA using less sophisticated, cheaper and more affordable equipment. |
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