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base de polymères naturels (alginate, chitosane, pectine ou cellulose) associés à des complexes supramoléculaires impliquant des cyclodextrines ou des architectures dérivées. Ces systèmes permettront
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, you will investigate how modified cellulose nanocrystals self-assemble into structurally colored materials under spherical confinement. The aim is to create robust and water-resistant photonic pigments
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Enhancement and Reaction condition Optimizations for cellulose valorization). The main objective of this project is the oxidation of cellulose to produce cellouronic acid using heterogeneous catalysis
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are lignocellulosic materials—i.e., primarily composed of lignin, hemicellulose, and cellulose—generated at the end of value chains. They are often underutilized (e.g., as heating fuel), despite their potential to be
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reactions. You will explore these synthesis approaches for biocatalytic transformations of biomass (e.g. cellulose, hemicellulose, chitin) into value-added biomaterials. In this role, you have the opportunity
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LIBs with low-cost, sustainable next-generation battery systems. As a prime alternative to costly and non-biodegradable materials (e.g., CNTs and graphene), cellulose nanocrystals (CNCs) are bio-based
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of intermediate presentations). The project concerns more particularly the development of substrate based on cellulosic materials allowing the sensitivity to temperature changes. The main scientific challenges
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bacterial cellulose and evaluation of promising structures providing permanent colouration • develope low-emission processes for bacterial cellulose growth, including the adjustment of reaction parameters
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For in Asia. To find out more about RMIT Vietnam and our current vacancies, please visit our website: https://www.rmit.edu.vn/careers About the project This research project explores plant-based and
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on the chemical modification of cellulose paper to create highly selective solid-phase extraction devices to enrich targeted contaminants (plant toxins and cyanobacterial toxins). Moreover, 3D-printing and rapid