Chihiro Nagahama scite author profile

A method to prepare DNA‐based multilayered microcapsules as a host matrix for synthesizing ultrasmall gold nanoparticles of 2–4 nm in size is presented. Utilizing the intrinsic affinity of DNA for transition metal ions, ionic gold was first efficiently concentrated inside the DNA‐based multilayers assembled on a CaCO3 sacrificial template. Further reduction of ionic gold inside the multilayers resulted in the formation of high‐density, well‐dispersed 2–4 nm gold nanoparticles distributed evenly and exclusively inside the polyelectrolyte multilayers. Metallized multilayers containing ultrafine gold nanoparticles showed a good performance in catalytic reduction of nitroaromatic compounds and the catalytic activity of gold nanoparticles was enhanced with a decrease of host multilayer thickness. The influence of the multilayer structure and composition on size and catalytic activity of gold nanoparticles is discussed.

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Inside Back Cover: Gold Nanoparticles in DNA‐Based Multilayer Films: Synthesis, Size Control, and Influence of the Multilayer Structure on Catalytic Properties (ChemNanoMat 2/2016)

Zinchenko

Nagahama

Murata

2016

ChemNanoMat

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DNA‐based polyelectrolyte microcapsules containing a large number of well‐dispersed ultrasmall gold nanoparticles were obtained by reducing a gold precursor inside a polyelectrolyte multilayer. Layer‐by‐layer assembly gave DNA‐based multilayer capsules that were used as matrices to template the formation of 2‐3 nm gold nanoparticles. The resulting organic–inorganic hybrids were utilized for catalytic reduction of nitroaromatic compounds. More details can be found in the Full Paper by A. Zinchenko et al. on page 125 in Issue 2, 2016 (DOI: 10.1002/cnma.201500089).

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Chihiro Nagahama

Small DNA additives to polyelectrolyte multilayers promote formation of ultrafine gold nanoparticles with enhanced catalytic activity

Gold Nanoparticles in DNA‐Based Multilayer Films: Synthesis, Size Control, and Influence of the Multilayer Structure on Catalytic Properties

Inside Back Cover: Gold Nanoparticles in DNA‐Based Multilayer Films: Synthesis, Size Control, and Influence of the Multilayer Structure on Catalytic Properties (ChemNanoMat 2/2016)

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