Fingerprints of a gold cluster revealed

February 28th, 2011 in Chemistry / Materials Science
This is an atomistic model of the Au102(p-MBA)44 particle. Gold: yellow, sulfur: orange, carbon: green, oxygen:r ed, hydrogen: white. Credit: Gold:yellow, sulfur:orange, carbon:green, oxygen:red, hydrogen:white.


This is an atomistic model of the Au102(p-MBA)44 particle. Gold: yellow, sulfur: orange, carbon: green, oxygen:r ed, hydrogen: white. Credit: Gold:yellow, sulfur:orange, carbon:green, oxygen:red, hydrogen:white.

Nanometre-scale gold particles are currently intensively investigated for possible applications in catalysis, sensing, photonics, biolabelling, drug carriers and molecular electronics. The particles are prepared in a solution from gold salts and their reactive gold cores can be stabilised with various organic ligands. Particularly stable particles can be synthesised by using organothiolate ligands that have a strong chemical interaction to gold. The chemical process of preparing such particles has been known since the mid-1990s and many different stable sizes and compositions are known.

However, the first definite information of their became available only in 2007 when the group of Roger Kornberg (Chemistry Nobel Laureate 2006) at Stanford University succeeded in making single crystals for X-ray diffractometry containing only one type of a particle having 102 and 44 thiolate ligands, the so called Au102(p-MBA)44 particle. The structure was reported in Science in late 2007 [1]. The theoretical analysis of this and other thiolate-protected clusters, led by Professor Hannu Häkkinen at the University of Jyväskylä in Finland, resulted in a theoretical framework that can be used to understand the stability and electronic structure of these . This work was reported in the Proceedings of the National Academy of Sciences in 2008 [2].

Now, researchers in the Department of Chemistry and the Nanoscience Center (NSC) at the University of Jyväskylä, in collaboration with the Kornberg group, report the first full spectroscopic characterisation of the absorption of electromagnetic radiation by the Au102(p-MBA)44 particle in solution and solid phases. The study was published in the Journal of the American Chemical Society on 24 February 2011 [3]. The spectroscopic study was performed in a large range of electromagnetic spectrum from mid-infrared ("heat absorption") to ultraviolet light.

"The study was technically demanding and could only be made now when the Stanford group has succeeded in refining the synthesis to produce pure Au102(p-MBA)44 product in large quantities," explains Adjunct Professor Mika Pettersson, who led the experimental work at the NSC. "We document clear "fingerprint" features in the absorbance spectrum that can be used in the future to benchmark chemical modifications of this particle for various applications. The work also establishes the molecular nature of the clusters by the observation of a band gap of 0.45 eV, in excellent agreement with theory. We were able to analyse these features from large-scale computations using the known structure of Au102(p-MBA)44 and thus fully understand the absorption characteristics of this particle," says Professor Häkkinen.

More information: 1. P.D. Jadzinsky, G. Calero, C.J. Ackerson, D.A. Bushnell and R.D. Kornberg, "Structure of a thiol monolayer-protected gold nanoparticle at 1.1. Ångstrom resolution", Science 318, 430 (2007) (www.sciencemag.org/content/318/5849/430.abstract).

2. M. Walter, J. Akola, O. Lopez-Acevedo, P. D. Jadzinsky, G. Calero, C. J. Ackerson, R. L. Whetten, H. Grönbeck, H. Häkkinen, "A unified view of ligand-protected gold clusters as superatom complexes", Proc. Natl. Acad. Sci. (USA) 105, 9157 (2008) (www.pnas.org/content/105/27/9157). See also gtresearchnews.gatech.edu/news… old-nanoclusters.htm.

3. E. Hulkko, O. Lopez-Acevedo, J. Koivisto, Y. Levi-Kalisman, R.D. Kornberg, M. Pettersson and H. Häkkinen, "Electronic and vibrational signatures of the Au102(p-MBA)44 cluster", J. Am. Chem. Soc., online Communication February 24, 2011 : (pubs.acs.org/doi/abs/10.1021/ja111077e)

Provided by Academy of Finland

"Fingerprints of a gold cluster revealed." February 28th, 2011. http://phys.org/news/2011-02-fingerprints-gold-cluster-revealed.html