Category: Chemistry

Most chemists now agree that microwaves are not doing anything mysterious to chemicals. They are simply another form of electromagnetic radiation, like light, infra-red or radio waves.

Microwaves have a wavelength between 1 mm and 0.1 m (corresponding to a frequency of 300 to 3 GHz). At these wavelengths the electromagnetic energy interacts with polar molecules, such as water, making them spin. The spinning water molecules knock into each other and pass on their rotational energy by making their neighbours vibrate. The more molecules vibrate the hotter they get.

But, while there is nothing mystical about this, the process of microwave heating means that the energy is transferred to the molecules more effectively than simply heating them in a flask with a Bunsen burner so that the reactions generally go faster.

The formation of hot spots in a reaction mixture means that there are also very sharp rises in temperature without the solvent having a chance to boil away. Water, for instance, can reach 105 Celsius before boiling in such a hot spot in the microwave. The common organic solvent acetonitrile can reach 38 degrees above its normal boiling point.

Since most reaction rates are accelerated by increasing the reaction temperature – a ten-degree rise in temperature, doubles the reaction rate – a hot spot at a temperature above the normal boiling point of the reaction solvent means a microwave reaction can be that much faster.

We might all soon be making like koalas to keep our breath fresh and our teeth free of decay, according to Japanese researchers.

Kenji Osawa and his colleagues at Lotte Central Laboratory Ltd in Saitama and at Tokyo University of Pharmacy and Life Sciences have extracted a group of novel compounds from eucalyptus leaves that can knock out the typical bacteria that cause plaque build-up on teeth that leads unchecked to tooth decay. And, if you doubt it will work ask yourself, if you have ever seen a koala in a dentist’s chair. I rest my case.

If you think picking a name for a baby or pet cat is hard take a look at the Nature Biotechnology archives, there you will find all sorts of options for choosing the name for the latest discovered genetic variants of Drosophila melanogaster, the molecular biologist’s favourite fly.

The latest batch of Drosophila with spines have lovingly named proteins such as hedgehogs and variations on the theme are Indian, Desert and Sonic hedgehog [[computer games pervade all walks of life]]. There are many more monikers for fly proteins to choose from such as four-wheel drive, prawny abdomen, and twisted genitalia – all of these somehow describe characteristics of the proteins in question although pity the poor fly with the latter name.

Coming up with such a witty and humorous name for a choice molecule is even harder for yeast, or Caenorhabditis elegans, researchers who by international convention are stuck with three terse letters and a digit.

Chemists, of course, retain the crown for thinking up easy to remember names, a boon for attracting new students into the field. For instance, a recent news item in New Scientist described the wonders of a toroidal molecule with the easy to swallow name of {4,34-dimethyl-1,4,7,10,13,16,19,22,25,28,31,34,37,40,43,46,49,52,55,5
-icosaazatricyclo[56.2.2.2.2.2.7,10,28,31,37,40]hexacontane. Then again “bagel-ane” was probably a bit too sweet.