Skip to 0 minutes and 6 secondsIn our stressful hectic lives, how nice to have perfumes and fragrances to brighten-up our days, from a splash of cologne, to a sniff of freshly laundered clothes or a scented candle. Our tour of chemical attraction starts by seeing that perfumes are composed, much like musicians compose music. We see why Chanel No 5 is a landmark perfume, and how a key component aldehyde is made in the lab - today, of the 3000 or so fragrance ingredients available, more than 95% are in made in the lab. Amazingly, flowers produce around 1700 fragrance compounds.
Skip to 0 minutes and 43 secondsWe will explore those found in 'the queen of flowers', the rose; from how to extract fragrances from the petals to determining the structures of floral-smelling compounds including rose oxides. It has been suggested that the human nose can distinguish more than 1 trillion different smells. But, how do we recognise such different smells - an interesting question and, one, we will see, that current theories cannot fully explain. What we think of as a single smell is actually a combination of many odour molecules acting on a variety of receptors in our nose, but more research is needed.
Skip to 1 minute and 19 secondsWe are not the only creatures that smell - we will see that even the slightest whiff of a sex pheromone can attract some insects, while alarm pheromones can warn them of danger, and trail pheromones allow wandering ants to return to their nest. We will also consider human pheromones - a complicated and controversial area of research. The lifetime of a perfume is short and there is an increasing demand for biodegradable perfumes. So, what does the future hold? Perhaps pro-fragrances that slowly release fragrances, an increased use of pheromones in perfumes, or advances in computing power may enable computer-aided fragrance design. Maybe perfumes will not only make us smell better, but improve our physical and emotional wellbeing?
Skip to 2 minutes and 5 secondsWhatever direction, the ultimate aim is the rational design of fragrance molecules - the perfume industry is valued at over £20 billion per year, so the ability to predict how a molecule's structure will affect its odour, is not to be sniffed at.
Chemical attraction and organic compounds
Although chemists come from different countries and speak different languages, they all understand chemical formulae. For example, in methane – which has the chemical formula CH4 – it is important to know that there are four hydrogen atoms and a carbon atom, and that carbon forms bonds to each of the hydrogen atoms.
Many of you may have not done Chemistry for a while, so following this is a recap about drawing chemical structures, in particular, organic compounds which is the subject of this course. You will see that there are different ways for showing chemical structures, each providing different levels of detail.
This course focuses on organic chemistry, which studies over 16 million compounds that involve carbon. We call these organic compounds. Organic compounds include natural products, such as sugars and alkaloids, which are central for life, and synthetic (or man‐made) compounds, including plastics, dyes, perfumes and medicines that are important to our everyday lives.
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