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highly polar bio-based polymers, including poly(hydroxyurethane)s (PHUs), with relaxor properties. • The PHUs will be polymerized from bio-based dicarbonates and long-chain diamines to promote
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and compartmentalization. ESPCI will contribute to the in vitro compartmentalization of autocatalytic and metabolic system in emulsion droplets and coacervate droplets using microfluidic systems
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multidiciplinary research team The Giovannitti group develops next-generation polymeric organic semiconductors for electrochemical applications. We have strong expertise in the design and synthesis of tailor-made
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on the environmental impact of this new synthesis strategy. We will design original synthons/monomers from biomass (e.g., furan, vanillin) that can be polymerized using various processes, including step-growth
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, capsules, tablets, powders, suspensions, solutions, emulsions and gels. Experience working under ISO9001 and GMPs environments. Ability to present results through well‑structured reports, scientific articles
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organic chemistry with passion for electrochemistry, we invite you to apply and join our team. Join a multidiciplinary research team The Giovannitti group develops next-generation polymeric organic
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, polymeric, or physical chemist with expertise in electrode or electrolyte chemistry for development of new electrode or electrolyte systems for battery applications. The primary focus will be on synthesis and
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problems are: bubbly flow, emulsions, sedimentation, wetting, gas-mixing, red-blood cell flow in the human vasculature. We are seeking a candidate who is intellectually curious and enthusiastic about
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project, including, but not limited to: Investigation and evaluation of the antibacterial properties of polymeric materials synthesized within the project; Design and execution of microbiological
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initiatives include developing advanced aqueous emulsion and suspension systems for spray coating, predictive modeling of packaging performance, and optimizing packaging designs for high-value product