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 | Seeking Business Enablers to Optimize Processes, Enhance Supply Chains, and Drive Digital Transformation in Frozen Foods Industry |
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Nomad Foods, Europe’s leading frozen food company has launched its Future Foods Lab, a bold new venture clienting initiative, in partnership with Innoget. As part of Nomad Foods’ innovation strategy, the Future Foods Lab will explore market-ready solutions proposed by startups to address key business challenges, which can then be piloted and scaled across Europe. The Future Foods Lab will offers a unique opportunity whereby those who apply will benefit from: -A paying customer relationship with Nomad Foods -Access to a test and learn environment with real-world validation -Deep industry immersion in frozen food manufacturing and global supply chains -Mentorship from cross-functional experts in R&D, marketing, procurement, and more -Opportunities for co-branding, commercial scaling, and long-term partnerships |
 | Seeking Biodegradable Thermoplastic Resin for Injection Molding |
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PepsiCo is seeking biodegradable, injection-moldable resins that could serve as drop-in or near drop-in replacements for polyolefins such as polyethylene (PE) and polypropylene (PP) in injection-molded closures and other primary packaging components used for food and beverage applications with direct food contact. |
| | Seeking Moisture Barrier for Flexible Packaging |
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PepsiCo is looking for novel resins that can co-extrude with their core resins to form a skin layer with high functionality that can anchor metal to film or highly functional coatings which would serve the same purpose. Inherently high barrier coatings that can be applied as primer coating or top coating over metal could also be a solution. |
 | Muscle Strength Measuring Device |
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Background Manual muscle-testing and the use of a dynamometer are the most common methods to measure muscle strength. Currently used methods of semi- and quantitative measurement of maximal muscle strength require subject cooperation and thus depends on engagement of tested subject. Measuring muscle strength may be an important component of physical training or nutrition evaluation and assessment. Descricption of the Invention The lack of quantitative data of muscle strength resulted in the development of our device. Our solution is objective dynamometry. The device works on the principle of electrical stimulation of the musculus tibialis at the motor point by a series of stimulation with increasing intensity. The maximum muscle strength and muscle fatigue are determined from the measured values using torque sensor based on tensometric measurement. This noninvasive approach enables appropriately investigating the characteristics of muscles and assess distribution of fast and slow muscle fibers. Our device is intended not only for sports medicine (effect of training and nutrition on athletes’ performance) and for athletes themselves, but also for intensive medicine (sarcopenia, coma, long-term diseases). We have developed a prototype of second generation according to regulations that are required to follow for devices of such type. Advantages Currently, the devices on the market are based on dynamometric principle engaging human will. Our device operates objectively independently of human will. Our device is mobile, simple and easy-to-use. Our device is a suitable tool to screen for sarcopenia and identify effective ways for preventive and therapeutic interventions and thus prevent the disastrous consequences of sarcopenia. Moreover, our solution offers technique that teaches athletes how to improve their health and physical performance. |
 | Sprayable Bio-Based Agricultural Balm |
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Airable Research Lab has formulated a sprayable bio-based balm for agricultural applications such as cow udders, which are exposed to all weather extremes. The product heals damaged or chapped skin. The sprayable formulation allows for contact-free application. Diseases of the udder are typically spread by contact with hands, towels, vectors (bugs), or milking equipment, so this approach minimizes direct contact and lowers the risk of transmitting infectious diseases that may lead to mastitis. |
 | Two in one: engineering recombinant biocatalysts for plastic recycling and towards bioplastic production |
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CSIC has developed recombinant genetic cassettes and bacterial host cells comprising them which are useful as biotechnological tools for the aerobic and anaerobic biodegradation of o-phthalate (PA) and its bioconversion into value-added biodegradable polymers. The present invention belongs to the fields of microbiology and biotechnology, in particular to support industrially-relevant microbial platforms for bioremediation of environments contaminated with phthalates, for plastic recycling and for bioplastic biosynthesis. |
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