0:00:00.763,0:00:03.378 Organic chemists make molecules, 0:00:03.378,0:00:05.194 very complicated molecules, 0:00:05.194,0:00:08.878 by chopping up a big molecule into small molecules 0:00:08.878,0:00:10.739 and reverse engineering. 0:00:10.739,0:00:11.778 And as a chemist, 0:00:11.778,0:00:15.245 one of the things I wanted to ask my research group a couple of years ago is, 0:00:15.245,0:00:19.396 could we make a really cool universal chemistry set? 0:00:19.396,0:00:24.429 In essence, could we "app" chemistry? 0:00:24.429,0:00:27.612 Now what would this mean, and how would we do it? 0:00:27.612,0:00:29.583 Well to start to do this, 0:00:29.583,0:00:31.315 we took a 3D printer 0:00:31.315,0:00:35.617 and we started to print our beakers and our test tubes on one side 0:00:35.617,0:00:39.682 and then print the molecule at the same time on the other side 0:00:39.682,0:00:42.836 and combine them together in what we call reactionware. 0:00:42.836,0:00:47.270 And so by printing the vessel and doing the chemistry at the same time, 0:00:47.270,0:00:52.437 we may start to access this universal toolkit of chemistry. 0:00:52.437,0:00:53.985 Now what could this mean? 0:00:53.985,0:00:59.253 Well if we can embed biological and chemical networks like a search engine, 0:00:59.253,0:01:02.402 so if you have a cell that's ill that you need to cure 0:01:02.402,0:01:04.121 or bacteria that you want to kill, 0:01:04.121,0:01:06.452 if you have this embedded in your device 0:01:06.452,0:01:08.901 at the same time, and you do the chemistry, 0:01:08.901,0:01:12.502 you may be able to make drugs in a new way. 0:01:12.502,0:01:14.902 So how are we doing this in the lab? 0:01:14.902,0:01:18.001 Well it requires software, it requires hardware 0:01:18.001,0:01:20.367 and it requires chemical inks. 0:01:20.367,0:01:21.820 And so the really cool bit is, 0:01:21.820,0:01:24.867 the idea is that we want to have a universal set of inks 0:01:24.867,0:01:27.136 that we put out with the printer, 0:01:27.136,0:01:31.418 and you download the blueprint, the organic chemistry for that molecule 0:01:31.418,0:01:34.418 and you make it in the device. 0:01:34.418,0:01:39.985 And so you can make your molecule in the printer using this software. 0:01:39.985,0:01:42.184 So what could this mean? 0:01:42.184,0:01:47.131 Well, ultimately, it could mean that you could print your own medicine. 0:01:47.131,0:01:49.100 And this is what we're doing in the lab at the moment. 0:01:49.100,0:01:51.002 But to take baby steps to get there, 0:01:51.002,0:01:53.835 first of all we want to look at drug design and production, 0:01:53.835,0:01:56.485 or drug discovery and manufacturing. 0:01:56.485,0:01:59.484 Because if we can manufacture it after we've discovered it, 0:01:59.484,0:02:01.618 we could deploy it anywhere. 0:02:01.618,0:02:03.734 You don't need to go to the chemist anymore. 0:02:03.734,0:02:06.102 We can print drugs at point of need. 0:02:06.102,0:02:08.757 We can download new diagnostics. 0:02:08.757,0:02:10.768 Say a new super bug has emerged. 0:02:10.768,0:02:12.385 You put it in your search engine, 0:02:12.385,0:02:15.518 and you create the drug to treat the threat. 0:02:15.518,0:02:19.206 So this allows you on-the-fly molecular assembly. 0:02:19.206,0:02:22.201 But perhaps for me the core bit going into the future 0:02:22.201,0:02:25.551 is this idea of taking your own stem cells, 0:02:25.551,0:02:27.318 with your genes and your environment, 0:02:27.318,0:02:30.767 and you print your own personal medicine. 0:02:30.767,0:02:33.019 And if that doesn't seem fanciful enough, 0:02:33.019,0:02:35.067 where do you think we're going to go? 0:02:35.067,0:02:39.651 Well, you're going to have your own personal matter fabricator. 0:02:39.651,0:02:41.551 Beam me up, Scotty. 0:02:41.551,0:02:44.900 (Applause)