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Liquid‐Phase Synthesis of Base Metal Nanoparticles

Schöttle, Christian / Gyger, Fabian / Feldmann, Claus

Aiming at novel synthesis strategies for base metal nanoparticles, three different types of liquid‐phase synthesis were explored. These synthesis strategies allow a straightforward and reliable access to reactive base metal nanoparticles that could yet hardly be obtained via liquid‐phase methods. By now, Mo⁰, W⁰, Fe⁰, Re⁰, Zn⁰, Ti⁰ and Gd⁰ nanoparticles with particle diameters below 10 nm could be obtained. The as‐prepared base metal nanoparticles are highly reactive and can be directly reacted to, e.g., alloys, intermetallics, bimetallic heterostructures, and metal nitrides.

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Liquid‐Phase Synthesis of Base Metal Nanoparticles

Schöttle, Christian / Gyger, Fabian / Feldmann, Claus

Aiming at novel synthesis strategies for base metal nanoparticles, three different types of liquid‐phase synthesis were explored. These synthesis strategies allow a straightforward and reliable access to reactive base metal nanoparticles that could yet hardly be obtained via liquid‐phase methods. By now, Mo⁰, W⁰, Fe⁰, Re⁰, Zn⁰, Ti⁰ and Gd⁰ nanoparticles with particle diameters below 10 nm could be obtained. The as‐prepared base metal nanoparticles are highly reactive and can be directly reacted to, e.g., alloys, intermetallics, bimetallic heterostructures, and metal nitrides.

Liquid‐Phase Synthesis of Base Metal Nanoparticles

Schöttle, Christian / Gyger, Fabian / Feldmann, Claus

Aiming at novel synthesis strategies for base metal nanoparticles, three different types of liquid‐phase synthesis were explored. These synthesis strategies allow a straightforward and reliable access to reactive base metal nanoparticles that could yet hardly be obtained via liquid‐phase methods. By now, Mo⁰, W⁰, Fe⁰, Re⁰, Zn⁰, Ti⁰ and Gd⁰ nanoparticles with particle diameters below 10 nm could be obtained. The as‐prepared base metal nanoparticles are highly reactive and can be directly reacted to, e.g., alloys, intermetallics, bimetallic heterostructures, and metal nitrides.

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Titel:

Liquid‐Phase Synthesis of Base Metal Nanoparticles

Beteiligte:

Schöttle, Christian (Autor:in) / Gyger, Fabian (Autor:in) / Feldmann, Claus (Autor:in)

Erschienen in:

Chemie Ingenieur Technik ; 90 ; 427-435

Erscheinungsdatum:

01.04.2018

Format / Umfang:

9 pages

ISSN:

0009-286X , 1522-2640

DOI:

https://doi.org/10.1002/cite.201700119

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Base metals , Microemulsions , Nanoparticles , Naphthalenide , Liquid ammonia

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