Category Chemistry/Nanotechnology

A high-yielding 4-step process for converting a naturally occurring terpene, β-pinene, into a substituted ε-caprolactone, and ring-opening polymerisation and copolymerisation of this monomer.

Most current plastics are made from oil, which is unsustainable. However, scientists from the Centre for Sustainable Chemical Technologies (CSCT) at the University of Bath have developed a renewable plastic from a chemical called pinene found in pine needles. Pinene is the fragrant chemical from the terpene family that gives pine trees their distinctive “Christmas smell” and is a waste product from the paper industry.

The researchers hope the plastic could be used in a range of applications, including food packaging, plastic bags and even medical implants...

Argonne researchers are the first to capture the formation of nanomaterial defects in near-real time. Their work will help other researchers model the behavior of materials, a step that is key to engineering stronger, more reliable materials. Credit: Mark Lopez/Argonne National Laboratory

From blacksmiths forging iron to artisans blowing glass, humans have for centuries been changing the properties of materials to build better tools. In modern life, new materials are created to improve today’s items, such as stronger steel for skyscrapers and more reliable semiconductors for cell phones...

Unlocking the secrets of gold. Credit: Massey University

Gold is prized for its preciousness and as a conductor in electronics, but it is also important in scientific experimentation. Ernest Rutherford utilised it when mapping the atom, in an experiment, which needed a thin metal foil made of gold. However, despite its usefulness in experimentation, scientists found gold would not always perform how they theorised it would at the atomic level. Scientists do not like what they cannot explain, so debate grew amongst the communities best minds to explain this why gold is special, which until now remained unsolved even for the most basic atomic properties.

Acting Head of Institute of the New Zealand Institute for Advanced Study, Distinguished Professor Peter Schwerdtfeger, alongside internatio...

As soon as it comes out of the printing nozzle, the solvent evaporates and the ink solidifies. It takes the form of filaments slightly bigger than a hair. The manufacturing work can then begin. Credit: Polytechnique Montréal

Carbon nanotubes have made headlines in scientific journals for a long time, as has 3D printing. But when both combine with the right polymer, in this case a thermoplastic, something special occurs: electrical conductivity increases and makes it possible to monitor liquids in real time. This is a huge success for Polytechnique Montréal. In practical terms, the result of this research looks like a cloth; but as soon as a liquid comes into contact with it, said cloth is able to identify its nature. In this case, it is ethanol, but it might have been another liquid...