WEBVTT - BrainStuff Classics: How Does Hair Dye Work? 0:00:02.040 --> 0:00:06.880 Welcome to brain Stuff from How Stuff Works. Hi, I'm 0:00:06.920 --> 0:00:10.600 Lauren bulk Bam, and today's episode is another brain Stuff classic. 0:00:11.160 --> 0:00:13.520 If you've ever wondered how different types of hair dye 0:00:13.560 --> 0:00:17.400 can color your hair temporarily or permanently, our former host, 0:00:17.480 --> 0:00:23.360 Christian Sagar, how's the answer for you, Hey, brain Stuff, 0:00:23.400 --> 0:00:27.880 it's Christian Sager here. There are three basic chemical formulations 0:00:27.920 --> 0:00:32.559 of hair dye, temporary, semi permanent, and permanent. Before we 0:00:32.600 --> 0:00:35.040 look at what each of them do, let's look at 0:00:35.080 --> 0:00:39.800 the physical structure of hair. Hair is dead stuff, three 0:00:39.880 --> 0:00:44.320 layers of slightly different dead stuff. The core, called the medulla, 0:00:44.520 --> 0:00:47.320 is not pertinent to our interests today, but it's surrounded 0:00:47.360 --> 0:00:49.760 by a thick layer of cells called the cortex. And 0:00:49.800 --> 0:00:52.360 that's no relation to your brain's core text. It's just 0:00:52.520 --> 0:00:55.640 where you find the pigmented melanin proteins that give hair 0:00:55.680 --> 0:01:00.400 its color. Protecting the cortex is hair's outermost layer, the uticle. 0:01:00.800 --> 0:01:04.160 And this is hair's armor, made up of overlapping scales. 0:01:04.319 --> 0:01:08.600 Temporary die just sticks to the cuticle. It's more like paint. Really. 0:01:08.920 --> 0:01:11.880 It will usually circle the drain with your next shampoo. 0:01:12.480 --> 0:01:16.679 Semi Permanent dye contains molecules of pigments so tiny that 0:01:16.720 --> 0:01:19.400 they can slip between the scales of the cuticle and 0:01:19.480 --> 0:01:22.959 stick to the cortex. But it's still more paint like. 0:01:23.120 --> 0:01:26.120 It doesn't chemically react with anything in the hair. The 0:01:26.200 --> 0:01:30.000 little pigment particles will wash back out through the cuticle 0:01:30.040 --> 0:01:33.920 scales with soapy water, so a semi permanent die lasts 0:01:33.959 --> 0:01:39.280 about twelve shampoos max. Now, both temporary and semi permanent 0:01:39.360 --> 0:01:44.120 dyes can sometimes stain very light colored hair, but permanent dye, 0:01:44.280 --> 0:01:47.680 as the name suggests, is designed to stay with your 0:01:47.720 --> 0:01:51.880 hair until the hair grows or falls out. Now there 0:01:51.880 --> 0:01:54.760 are as many formulas for permanent dye as there are 0:01:54.840 --> 0:02:00.360 proprietary brands, and in general, permanent dye consists of two solutions. First, 0:02:00.600 --> 0:02:04.440 an alkaline chemical plus two types of particles that will 0:02:04.480 --> 0:02:08.120 come together to form the new color, die precursors and 0:02:08.200 --> 0:02:12.760 die couplers. Second, the developer. This is an oxidizer, usually 0:02:12.840 --> 0:02:15.960 a weak solution of hydrogen peroxide. You or you know 0:02:16.000 --> 0:02:20.079 your salon professional mix the two together right before applying 0:02:20.120 --> 0:02:23.680 them to your hair. The alkaline chemical, either ammonia or 0:02:23.800 --> 0:02:27.760 more gentle substitute, goes to work opening up the cuticle. 0:02:27.960 --> 0:02:30.840 For dye to be most effective, it needs to access 0:02:30.919 --> 0:02:35.880 the hair's cortex. Alkaline stuff temporarily softens and relaxes the 0:02:35.919 --> 0:02:39.679 cuticle scales. The next hurdle in achieving a new hair 0:02:39.720 --> 0:02:42.680 color is getting rid of some of the existing color. 0:02:42.760 --> 0:02:47.040 That's the melanin that's in the hair's cortex. Enter the developer. 0:02:47.160 --> 0:02:51.720 It oxidizes the melanin molecules, breaking melanin's double carbon carbon 0:02:51.800 --> 0:02:55.400 electron bonds and giving up one of its own oxygen 0:02:55.480 --> 0:02:59.040 atoms to fill in the space. The result, the melanin 0:02:59.160 --> 0:03:03.120 turns colorless us and releases sulfur atoms. That's right, part 0:03:03.160 --> 0:03:07.639 of permanent dyes characteristic stink isn't actually the die at all, 0:03:08.000 --> 0:03:11.239 but an element of your hair passing into the air. 0:03:11.840 --> 0:03:14.840 But that's not the developers only job. It also kicks 0:03:14.880 --> 0:03:18.440 off the reaction that brings together the new color molecules 0:03:18.480 --> 0:03:24.320 by oxidizing the die precursors. These are usually colorless chemicals 0:03:24.360 --> 0:03:30.600 that develop color when oxidized. The resulting pigmented particles, called intermediates, 0:03:30.639 --> 0:03:34.800 are monomers that, left to their own devices would slip 0:03:34.880 --> 0:03:38.800 through the cuticle scales like semi permanent dye, but the 0:03:38.960 --> 0:03:43.840 die couplers react with the intermediates to form polymers of 0:03:43.920 --> 0:03:46.720 pigment that are too big to just slip back out. 0:03:47.280 --> 0:03:51.400 And that's how permanent color resist fading through multiple washes. 0:03:51.920 --> 0:04:00.160 It's trapped beneath the cuticle. Today's episode was pretty by 0:04:00.200 --> 0:04:03.320 Tyler Klang and written by me for Brainstuff YouTube series. 0:04:03.640 --> 0:04:06.160 I'm supposed to remind you to contain yourself in a 0:04:06.200 --> 0:04:09.160 brain Stuff themed T shirt available from t public dot com, 0:04:09.200 --> 0:04:12.040 slash brain stuff, and of course, for more on this 0:04:12.160 --> 0:04:15.040 and lots of other colorful topics, visit our home planet, 0:04:15.160 --> 0:04:27.680 how stuff works dot com