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26 janvier 2023
- doi: 10.57745/PM55G5
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Chemistry Physics X ray diffraction Particle size distribution Transmission electron microscopy MagnetismSujets proches
Chemistry Service of process Service of papers Abuse of process ProcessCiter ce document
Nathalie Daro et al., « One‐step synthesis of spin crossover nanoparticles using flow chemistry and supercritical CO2 », Recherche Data Gouv, ID : 10.57745/PM55G5
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Data set and images from - Publication : Daro N., Vaudel T., Afindouli L., Marre S., Aymonier C. and Chastanet G. One‐step synthesis of spin crossover nanoparticles using flow chemistry and supercritical CO2. Chemistry - European Journal 2020 vol.26, n°69, p.16286-16290. DOI : 10.1002/chem.202002322 / HAL : https://hal.science/hal-02945200 In the project context : ANR FLOWSWITCH - Flow Chemistry for Room Temperature Switchable Particles - ANR-19-CE07-0022-01 Dataset production context : Switchable materials are increasingly considered for implementation in devices or multifunctional composites leading to a strong need in terms of reliable synthetic productions of well-defined objects. Here, an innovative and robust template-free continuous process was developed to synthesize nanoparticles of a switchable coordination polymer, including the use of supercritical CO2, aiming at both quenching the particle growth and drying the powder. This all-in-one process offers a 12-fold size reduction in a few minutes while maintaining the switching properties of the selected spin crossover coordination polymer. For more information see the article