Tag Archives: Eleanor M. Grieveson

Better beer in plastic bottles

This innovation in beer bottling was developed in Ireland and I’m pretty sure the Irish have themselves braced for the humourous comments sure to follow given the legends about the Irish and beer.

Here’s more about the nanotechnology-enabled plastic beer bottles from the Sept. 18, 2012 news item on Nanowerk,

Scientists at CRANN [Centre for Research on Adaptive Nanostructures and Nanodevices], the Science Foundation Ireland-funded nanoscience institute based at Trinity College Dublin, have partnered with world-leading brewing company SABMiller on a project to increase the shelf life of bottled beer in plastic bottles. The new deal will see SABMiller invest in the project over a two year period.

Professor Jonathan Coleman and his team in CRANN are using nanoscience research methods to develop a new material that will prolong the shelf-life of beer in plastic bottles. Current plastic bottles have a relatively short shelf life, as both oxygen and carbon dioxide can permeate the plastic and diminish the flavour.

The new material, when added to plastic bottles will make them extremely impervious, meaning that oxygen cannot enter and that the carbon dioxide cannot escape, thus preserving the taste and ‘fizz’.

The Sept. 18, 2012 CRANN news release does not include many more details about the technology,

The team will exfoliate nano-sheets of boron nitride, each with a thickness of approximately 50,000 times thinner than one human hair. These nano-sheets will be mixed with plastic, which will result in a material that is extremely impervious to gas molecules. The molecules will be unable to diffuse through the material and shelf life will be increased.

As well as increasing the shelf life of the beer itself, less material is required in production, reducing cost and environmental impact.

If you are lucky enough to have a subscription or have some other access to Science magazine, you can read more about Coleman’s and his team’s work on boron nitride and thin films. Here’s the citation and abstract for the article,

Two-Dimensional Nanosheets Produced by Liquid Exfoliation of Layered Materials by Jonathan N. Coleman, Mustafa Lotya, Arlene O’Neill, Shane D. Bergin, Paul J. King, Umar Khan,  Karen Young, Alexandre Gaucher, Sukanta De, Ronan J. Smith, Igor V. Shvets, Sunil K. Arora, George Stanton, Hye-Young Kim, Kangho Lee, Gyu Tae Kim, Georg S. Duesberg, Toby Hallam, John J. Boland, Jing Jing Wang, John F. Donegan, Jaime C. Grunlan, Gregory Moriarty, Aleksey Shmeliov, Rebecca J. Nicholls, James M. Perkins, Eleanor M. Grieveson, Koenraad Theuwissen, David W. McComb, Peter D. Nellist, and Valeria Nicolosi in Science 4 February 2011: Vol. 331 no. 6017 pp. 568-571 DOI: 10.1126/science.1194975

If they could be easily exfoliated, layered materials would become a diverse source of two-dimensional crystals whose properties would be useful in applications ranging from electronics to energy storage. We show that layered compounds such as MoS2, WS2, MoSe2, MoTe2, TaSe2, NbSe2, NiTe2, BN, and Bi2Te3 can be efficiently dispersed in common solvents and can be deposited as individual flakes or formed into films. Electron microscopy strongly suggests that the material is exfoliated into individual layers. By blending this material with suspensions of other nanomaterials or polymer solutions, we can prepare hybrid dispersions or composites, which can be cast into films. We show that WS2 and MoS2 effectively reinforce polymers, whereas WS2/carbon nanotube hybrid films have high conductivity, leading to promising thermoelectric properties.

This announcement comes during Ireland’s Nanoweek 2012 (Sept. 14 – 21, 2012) which I mentioned along with other nano-themed events currently taking place in Ireland in my Sept. 14, 2012 posting.