Underwater Leidenfrost nanochemistry for creation of size-tailored zinc peroxide cancer nanotherapeutics

Water can function as a sustainable reactor for the synthesis of size-controlled, functional nanoparticles. Here, the authors introduce an underwater Leidenfrost synthesis that reproduces the dynamic chemistry of the deep ocean, in which anticancer therapeutic ZnO2nanoclusters form in an overheated...

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Auteurs principaux:	Mady Elbahri, Ramzy Abdelaziz, Duygu Disci-Zayed, Shahin Homaeigohar, Justyna Sosna, Dieter Adam, Lorenz Kienle, Torben Dankwort, Moheb Abdelaziz
Format:	article
Langue:	EN
Publié:	Nature Portfolio 2017
Sujets:	Science Q
Accès en ligne:	https://doaj.org/article/fe020df06a0343b0bde5b6a479c8304c
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Résumé:	Water can function as a sustainable reactor for the synthesis of size-controlled, functional nanoparticles. Here, the authors introduce an underwater Leidenfrost synthesis that reproduces the dynamic chemistry of the deep ocean, in which anticancer therapeutic ZnO2nanoclusters form in an overheated zone and migrate to colder water to continue growth.

Underwater Leidenfrost nanochemistry for creation of size-tailored zinc peroxide cancer nanotherapeutics

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