The aim of this work was to evaluate the capacity of selected microalgal strains to induce CaCO3 precipitation through the photosynthetic pathway. Several microalgae, most of which belonging to cyanobacteria, were screened to identify the best strains in performing this process, with the objective to use them in the production of new biomaterials based on stone leftovers. This work was conducted with a multidisciplinary approach, involving microbiologists and designers.
Microalgae biomineralization to valorize stone extraction leftovers / Lorenzo Reali, Giacomo Sampietro, Francesco Cantini, Marco Marseglia, Natascia Biondi. - ELETTRONICO. - (2022), pp. 0-0. (Intervento presentato al convegno Convegno AISAM 2022 Professor Mario Tredici tenutosi a Napoli nel 16-18/10/2022).
Microalgae biomineralization to valorize stone extraction leftovers
Lorenzo Reali;Giacomo Sampietro;Francesco Cantini;Marco Marseglia;Natascia Biondi
2022
Abstract
The aim of this work was to evaluate the capacity of selected microalgal strains to induce CaCO3 precipitation through the photosynthetic pathway. Several microalgae, most of which belonging to cyanobacteria, were screened to identify the best strains in performing this process, with the objective to use them in the production of new biomaterials based on stone leftovers. This work was conducted with a multidisciplinary approach, involving microbiologists and designers.
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