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Green and Sustainable Manufacture of Ultrapure Engineered Nanomaterials.


ABSTRACT: Nanomaterials with very specific features (purity, colloidal stability, composition, size, shape, location…) are commonly requested by cutting-edge technologic applications, and hence a sustainable process for the mass-production of tunable/engineered nanomaterials would be desirable. Despite this, tuning nano-scale features when scaling-up the production of nanoparticles/nanomaterials has been considered the main technological barrier for the development of nanotechnology. Aimed at overcoming these challenging frontier, a new gas-phase reactor design providing a shorter residence time, and thus a faster quenching of nanoclusters growth, is proposed for the green, sustainable, versatile, cost-effective, and scalable manufacture of ultrapure engineered nanomaterials (ranging from nanoclusters and nanoalloys to engineered nanostructures) with a tunable degree of agglomeration, composition, size, shape, and location. This method enables: (1) more homogeneous, non-agglomerated ultrapure Au-Ag nanoalloys under 10 nm; (2) 3-nm non-agglomerated ultrapure Au nanoclusters with lower gas flow rates; (3) shape-controlled Ag NPs; and (4) stable Au and Ag engineered nanostructures: nanodisks, nanocrosses, and 3D nanopillars. In conclusion, this new approach paves the way for the green and sustainable mass-production of ultrapure engineered nanomaterials.

SUBMITTER: Ortiz de Zarate D 

PROVIDER: S-EPMC7153611 | biostudies-literature | 2020 Mar

REPOSITORIES: biostudies-literature

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Green and Sustainable Manufacture of Ultrapure Engineered Nanomaterials.

Ortiz de Zárate David D   García-Meca Carlos C   Pinilla-Cienfuegos Elena E   Ayúcar José A JA   Griol Amadeu A   Bellières Laurent L   Hontañón Esther E   Kruis Frank E FE   Martí Javier J  

Nanomaterials (Basel, Switzerland) 20200305 3


Nanomaterials with very specific features (purity, colloidal stability, composition, size, shape, location…) are commonly requested by cutting-edge technologic applications, and hence a sustainable process for the mass-production of tunable/engineered nanomaterials would be desirable. Despite this, tuning nano-scale features when scaling-up the production of nanoparticles/nanomaterials has been considered the main technological barrier for the development of nanotechnology. Aimed at overcoming t  ...[more]

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