Tag Archives: Thomas Altantzis

Starry gold and silica Janus particles

A Feb. 11, 2014 news item on phys.org features a joint Basque/Belgian research collaboration on a Janus-type particle useful for future biomedical applications,

Researchers from the Basque centre CIC biomaGUNE and the University of Antwerp (Belgium) have designed nanoparticles with one half formed of gold branches and the other of silicon oxide. They are a kind of Janus particle, so-called in honour of the Roman god with two faces, which could be used in phototherapy in the future to treat tumours.

The Feb. 11, 2014 Platforma SINC news release on the Alpha Galileo website, which originated the news item, elaborates on the Janus myth and on the research,

In Roman mythology, Janus was the god of gates, doors, beginnings and transitions between the past and the future. In fact, the first month of the year, January (from the Latin, ianuarĭus), bears his name. This deity was characterised by his profile of two faces, something which has inspired scientists, when naming their chemical designs with two clearly distinct components.

Now, a team of researchers from CIC biomaGUNE in San Sebastian, together with colleagues from the Belgian University of Antwerp, have created Janus particles of nanometric size. They are constituted by silicon oxide on one side and gold points on the other.

Here’s an image of the ‘starry’ particles supplied by the researchers,

Two examples of nanostars with one silicon oxide face (bluish) and another with golden branches (yellow). / Credit: Liz-Marzán et al.

Two examples of nanostars with one silicon oxide face (bluish) and another with golden branches (yellow). / Credit: Liz-Marzán et al.

The news release goes on to describe the ‘starry’ particles in more detail,

As Luis Liz-Marzán, the main author of this study published in the journal ‘Chemical Communications’, explains to SINC: “These nanostars have optical and electronic properties determined largely by their small dimensions and their morphology.”

The researchers have come up with techniques to mould the sharp gold points from nanoparticles of this metal, such that very intense electric fields can be generated on the gold points using light.

“Our research is basic science, but these fields are used in processes of ultrasensitive detection to identify negligible quantities of molecules that can be absorbed on the gold face as contaminants or biomarkers that indicate the presence of a disease,” says Liz-Marzán.

Another possible application is phototherapy, the object of which is to kill malignant cells using heat, in this case induced by lighting the gold points. The oxide face would be used to join the nanostars to specific biological receptors that would take them to the damaged cells and only to these, so that the metal part can exercise its therapeutic or diagnostic function.

These nanoparticles are produced in various stages. First, golden nanospheres are produced by the chemical reduction of a salt from the precious metal. Then, two different organic compounds are added on opposite sides of the particle in order to give them distinct affinity due to the silicon oxide. In this way, the oxide covers only one part and the other remains uncovered in order to let the golden points grow.

Here’s a link to and a citation for the research paper,

Denis Rodríguez-Fernández, Thomas Altantzis, Hamed Heidari, Sara Bals, Luis M. Liz-Marzán. “A protecting group approach toward synthesis of Au–silica Janus nanostars”. Chemical Communications 50: 79-81, 2014. DOI: 10.1039/C3CC47531J.

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I last wrote about a Janus particle in an Aug. 13, 2009 post about research at Duke University.