Controlling the Distribution of Supported Nanoparticles by Aqueous Synthesis

T.M. Eggenhuisen; H. Friedrich; F. Nudelman; J. Zečević; N.A.J.M. Sommerdijk; P.E. de Jongh; K.P. de Jong

doi:10.1021/cm3037845

Controlling the Distribution of Supported Nanoparticles by Aqueous Synthesis

T.M. Eggenhuisen, H. Friedrich, F. Nudelman, J. Zečević, N.A.J.M. Sommerdijk, P.E. de Jongh, K.P. de Jong

Sub Inorganic Chemistry and Catalysis

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Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Synthesis of supported nanoparticles with controlled size and uniform distribution is a major challenge in nanoscience, in particular for applications in catalysis. Cryo-electron tomography revealed with nanometer resolution the 3D distribution of phases present during nanoparticle synthesis via impregnation, drying, and thermal treatment with transition metal salt precursors. By conventional methods a nonuniform salt distribution led to clustered metal oxide nanoparticles (NiO, Co3O4). In contrast, freezedrying restricted solution mobility during drying and a more uniform nanoparticle distribution was obtained. By this fundamental insight into catalyst preparation, controlled synthesis of supported catalysts was achieved in a way that is also applicable for other nanostructured materials.

Original language	English
Pages (from-to)	890-896
Number of pages	7
Journal	Chemistry of Materials
Volume	25
DOIs	https://doi.org/10.1021/cm3037845
Publication status	Published - 2013

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title = "Controlling the Distribution of Supported Nanoparticles by Aqueous Synthesis",

abstract = "Synthesis of supported nanoparticles with controlled size and uniform distribution is a major challenge in nanoscience, in particular for applications in catalysis. Cryo-electron tomography revealed with nanometer resolution the 3D distribution of phases present during nanoparticle synthesis via impregnation, drying, and thermal treatment with transition metal salt precursors. By conventional methods a nonuniform salt distribution led to clustered metal oxide nanoparticles (NiO, Co3O4). In contrast, freezedrying restricted solution mobility during drying and a more uniform nanoparticle distribution was obtained. By this fundamental insight into catalyst preparation, controlled synthesis of supported catalysts was achieved in a way that is also applicable for other nanostructured materials.",

author = "T.M. Eggenhuisen and H. Friedrich and F. Nudelman and J. Ze{\v c}evi{\'c} and N.A.J.M. Sommerdijk and {de Jongh}, P.E. and {de Jong}, K.P.",

year = "2013",

doi = "10.1021/cm3037845",

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volume = "25",

pages = "890--896",

journal = "Chemistry of Materials",

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T1 - Controlling the Distribution of Supported Nanoparticles by Aqueous Synthesis

AU - Eggenhuisen, T.M.

AU - Friedrich, H.

AU - Nudelman, F.

AU - Zečević, J.

AU - Sommerdijk, N.A.J.M.

AU - de Jongh, P.E.

AU - de Jong, K.P.

PY - 2013

Y1 - 2013

N2 - Synthesis of supported nanoparticles with controlled size and uniform distribution is a major challenge in nanoscience, in particular for applications in catalysis. Cryo-electron tomography revealed with nanometer resolution the 3D distribution of phases present during nanoparticle synthesis via impregnation, drying, and thermal treatment with transition metal salt precursors. By conventional methods a nonuniform salt distribution led to clustered metal oxide nanoparticles (NiO, Co3O4). In contrast, freezedrying restricted solution mobility during drying and a more uniform nanoparticle distribution was obtained. By this fundamental insight into catalyst preparation, controlled synthesis of supported catalysts was achieved in a way that is also applicable for other nanostructured materials.

AB - Synthesis of supported nanoparticles with controlled size and uniform distribution is a major challenge in nanoscience, in particular for applications in catalysis. Cryo-electron tomography revealed with nanometer resolution the 3D distribution of phases present during nanoparticle synthesis via impregnation, drying, and thermal treatment with transition metal salt precursors. By conventional methods a nonuniform salt distribution led to clustered metal oxide nanoparticles (NiO, Co3O4). In contrast, freezedrying restricted solution mobility during drying and a more uniform nanoparticle distribution was obtained. By this fundamental insight into catalyst preparation, controlled synthesis of supported catalysts was achieved in a way that is also applicable for other nanostructured materials.

U2 - 10.1021/cm3037845

DO - 10.1021/cm3037845

M3 - Article

SN - 0897-4756

VL - 25

SP - 890

EP - 896

JO - Chemistry of Materials

JF - Chemistry of Materials

ER -

Controlling the Distribution of Supported Nanoparticles by Aqueous Synthesis

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