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  • Whether we think about it or not,

  • chemistry has always played a big role in art and culture.

  • Just take colors for example!

  • But what is a color really?

  • And what led to the use of some colors in the first place?

  • Let's trace a color back to its roots. And leaves.

  • One color story started with this plant, called Indigofera tinctoria or Indigo.

  • It's native to India and the name comes from the Greek work indicon,

  • meaning Indian substance.

  • Substance?

  • In this plant there is a colorless molecule that looks like this.

  • But under some conditions, this molecule can react and change,

  • looking like this instead.

  • So what's the big deal then you say?

  • In chemistry, rearranging the molecular structure like this

  • can be like night and day, or in this case like green and blue.

  • Because this last molecule is blue.

  • After its discovery, people now wanted the blue indigo molecule,

  • especially for dying clothes.

  • But this is where it gets a little tricky.

  • You see, this blue indigo molecule is insoluble,

  • meaning the blue dye simply won't stick.

  • We now know that to overcome this, the solution that the dye is in has to have a high pH.

  • Well, people did still figure this out a long time ago.

  • So what did people have a few thousand years ago to raise the pH?

  • Did you know that urine becomes basic over time?

  • What is believed to have happened is that leaves from the indigo plant

  • got accidentally soaked in urine.

  • So if a textile came in contact with the basic urine-indigo solution

  • it turned blue!

  • So the high pH actually helped the molecules stick to the fabric.

  • But wait a minute...

  • How can this molecule be colorless and this be blue?

  • Hey Louise, can you take it from here?

  • On it!

  • When we look at the two molecules again, we can see that the blue molecule is larger

  • and has a greater number of double and single bonds.

  • It is this molecular structure that ultimately makes us see the colors.

  • But first we need light.

  • Light contains wavelengths of all colors.

  • If something is black, all the colors from the light are absorbed

  • and none is reflected back to our eyes.

  • We therefore see the object as black.

  • Now if we look at something colorful,

  • we see the red color because the flower reflects back the red wavelengths and absorbs others.

  • And the reason the flower absorbs particular colors comes down to its chemical structures.

  • So these alternating double and single bonds are the reason the indigo molecule is blue.

  • And if certain atoms are added to the molecule the absorbed wavelengths can change,

  • and that makes us see a different color.

  • The discovery of indigo color was huge for ancient art and culture.

  • And by understanding the chemistry behind it we can now synthesize the same molecule that

  • was for so long extracted from this plant.

  • And the use of indigo is still booming,

  • in fact we use about 13 000 metric tonnes every year.

  • And if we weren't synthesizing the molecule,

  • we would have needed about 3.9 billion kilograms of plants per year.

  • By the way, you might even be wearing some of it right now.

  • So we've learned that the colors,

  • that have an important role in art and culture, have some interesting chemistry histories to tell.

  • And the reason we see colors in the first place comes down to the structure of the molecules.

  • And just by changing the molecular structure slightly we can even change the color we see.

  • And here's a challenge.

  • Can you think of any other colors that have come from plants or animals?

  • And remember,

  • Chemistry is all around you!

Whether we think about it or not,

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B1 中級

顏色,到底是什麼?化學日曆,一月。藝術與文化 (What is a color, really? Chemistry Calendar, January: Art & Culture)

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    阿多賓 發佈於 2021 年 01 月 14 日
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