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Volume 6

Research & Reviews: Journal of Material Sciences

ISSN: 2321-6212

Advanced Materials 2018

September 04-06, 2018

September 04-06, 2018 | Zürich, Switzerland

21

st

International Conference on

Advanced Materials & Nanotechnology

Fine-controlled sub-nano metal particle in a dendrimer reactor

Kimihisa Yamamoto

Tokyo Institute of Technology, Japan

W

e show that tin chlorides, SnCl

2

and FeCl

3

complexes to the imines groups of a spherical poly (phenyl azomethine)

dendrimer in a stepwise fashion according to an electron gradient with complexation in a more peripheral generation

proceeding only after complexation in generations closer to the core has been completed. The metal assembly in a discrete

molecule can be converted to a size regulated metal cluster with a size smaller than 1 nm as a molecular reactor. Due to the

well-defined number of metal clusters in the sub nanometer size region, its property is much different from that of bulk or

general metal nanoparticles. Dendrimers are highly branched organic macromolecules with successive layers or generations

of branch units surrounding a central core. Organic, inorganic hybrid versions have also been produced by trapping metal

ions or metal clusters within the voids of the dendrimers. Their unusual, tree like topology endows these nano meter sized

macromolecules with a gradient in branch density from the interior to the exterior, which can be exploited to direct the transfer

of charge and energy from the dendrimer periphery to its core. Here, we show that tin ions, Sn

2+

, complex to the imines groups

of a spherical poly (phenyl azomethine) dendrimer in a stepwise fashion according to an electron gradient with complexation

in a more peripheral generation proceeding only after complexation in generations closer to the core has been completed. By

attaching an electron withdrawing group to the dendrimer core, we are able to change the complexation pattern, so that the

core imines are complexed last. By further extending this strategy, it should be possible to control the number and location of

metal ions incorporated into dendrimer structures, which might and uses as tailored catalysts or fine controlled clusters for

advanced nano catalysts.

Figure:

Precision synthesis of sub nanoparticles using dendrimers.

Biography

Kimihisa Yamamoto has completed his PhD in Polymer Chemistry at Waseda University, 1990. He joined as Professor in Department of Chemistry at Keio University,

1997. Currently, he is a Professor in the Chemical Resources Laboratory at Tokyo Institute of Technology since 2010. His present research interests are in developing

supra–metallo molecules for nano synthesizers involving nanoparticles, sub nanoparticles and super atoms..

yamamoto@res.titech.ac.jp

Kimihisa Yamamoto, Res. Rev. J Mat. Sci. 2018, Volume 6

DOI: 10.4172/2321-6212-C3-020