One pot route to sponge-like Fe3N nanostructures

Zoë Schnepp; Michael Thomas; Stefan Glatzel; Klaus Schlichte; Regina Palkovits; Cristina Giordano

doi:10.1039/C1JM12842F

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One pot route to sponge-like Fe₃N nanostructures†

Zoë Schnepp,*^a Michael Thomas,^b Stefan Glatzel,^a Klaus Schlichte,^c Regina Palkovits^cd and Cristina Giordano*^a

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* Corresponding authors

^a Max Planck Institute for Colloids and Interfaces, Wissenschaftspark Golm, Potsdam, Germany
E-mail: SCHNEPP.Zoe@nims.go.jp, Cristina.Giordano@mpikg.mpg.de
Tel: +49-(0)-331-567-9509

^b Bristol Centre for Functional Nanomaterials, University of Bristol, Tyndall Avenue, Bristol, UK

^c Department of Heterogeneous Catalysis, Max Planck Institut für Kohlenforschung, Kaiser-Wilhelm-Platz 1, Mülheim, Germany

^d Institute for Technical and Macromolecular Chemistry, RWTH Aachen, Worringerweg 1, Aachen, Germany

Abstract

Iron nitride (Fe₃N) is a promising material to replace scarce and costly noble metals in many catalytic applications. Here, we report the synthesis of Fe₃N nanostructures by a simple sol–gel based route. This aqueous, one-pot method based on a self-expanding polypeptide foam represents a breakthrough in Fe₃N nanostructure synthesis, which previously has only been achieved through ammonolysis. Through extensive X-ray diffraction and compositional analysis, a formation mechanism is proposed, based on in-situ nitridation by the decomposing gel matrix. The Fe₃N nanoparticle sponge is shown to be a promising catalyst for ammonia decomposition, an easy process for CO₂-free hydrogen supply and off-gas treatment.

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Article information

DOI: https://doi.org/10.1039/C1JM12842F
Article type: Paper
Submitted: 20 Jun 2011
Accepted: 05 Sep 2011
First published: 07 Oct 2011

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J. Mater. Chem., 2011,21, 17760-17764

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One pot route to sponge-like Fe₃N nanostructures

Z. Schnepp, M. Thomas, S. Glatzel, K. Schlichte, R. Palkovits and C. Giordano, J. Mater. Chem., 2011, 21, 17760 DOI: 10.1039/C1JM12842F

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Journal of Materials Chemistry