1 00:00:01,994 --> 00:00:04,761 You may have noticed that I'm wearing two different shoes. 2 00:00:06,776 --> 00:00:08,518 It probably looks funny -- 3 00:00:08,518 --> 00:00:10,192 it definitely feels funny -- 4 00:00:10,192 --> 00:00:11,872 but I wanted to make a point. 5 00:00:12,698 --> 00:00:16,964 Let's say my left shoe corresponds to a sustainable footprint, 6 00:00:16,964 --> 00:00:20,254 meaning we humans consume less natural resources 7 00:00:20,254 --> 00:00:22,501 than our planet can regenerate, 8 00:00:22,501 --> 00:00:27,013 and emit less carbon dioxide than our forests and ocean can reabsorb. 9 00:00:27,532 --> 00:00:29,568 That's a stable and healthy condition. 10 00:00:30,486 --> 00:00:33,487 Today's situation is more [like] my other shoe. 11 00:00:33,777 --> 00:00:35,324 It's way oversized. 12 00:00:36,070 --> 00:00:39,309 At the second of August in 2017, 13 00:00:39,309 --> 00:00:41,574 we have already consumed all resources 14 00:00:41,574 --> 00:00:43,664 our planet can regenerate this year. 15 00:00:44,844 --> 00:00:48,355 This is like spending all your money until the [eighteenth] of a month, 16 00:00:48,355 --> 00:00:51,477 and then needing a credit from the bank for the rest of the time. 17 00:00:51,656 --> 00:00:53,992 For sure you can do this for some months in a row, 18 00:00:53,992 --> 00:00:55,939 but if you don't change your behavior, 19 00:00:55,939 --> 00:00:58,436 sooner or later you will run into big problems. 20 00:00:59,291 --> 00:01:03,936 We all know the devastating effects of this excessive exploitation: 21 00:01:03,936 --> 00:01:05,409 global warming, 22 00:01:05,409 --> 00:01:07,216 rising of the sea levels, 23 00:01:07,216 --> 00:01:09,546 melting of the glaciers and polar ice, 24 00:01:09,546 --> 00:01:12,117 increasingly extreme climate patterns 25 00:01:12,117 --> 00:01:13,118 and more. 26 00:01:14,528 --> 00:01:17,190 The enormity of this problem really frustrates me. 27 00:01:18,418 --> 00:01:21,761 What frustrates me even more is that there are solutions to this, 28 00:01:21,761 --> 00:01:24,114 but we keep doing things like we always did. 29 00:01:24,599 --> 00:01:26,477 Today I want to share with you 30 00:01:26,477 --> 00:01:29,263 how a new solar technology can contribute 31 00:01:29,263 --> 00:01:31,311 to a sustainable future of buildings. 32 00:01:32,624 --> 00:01:36,785 Buildings consume about 40 percent of our total energy demand, 33 00:01:36,785 --> 00:01:38,256 so tackling this consumption 34 00:01:38,256 --> 00:01:40,846 would significantly reduce our climate emissions. 35 00:01:41,476 --> 00:01:43,818 A building designed along sustainable principle 36 00:01:43,818 --> 00:01:46,202 can produce all the power it needs by itself. 37 00:01:46,868 --> 00:01:47,909 To achieve this, 38 00:01:47,909 --> 00:01:51,509 you first have to reduce the consumption as much as possible 39 00:01:51,509 --> 00:01:54,402 by using well-insulated walls or windows for instance. 40 00:01:54,773 --> 00:01:56,971 These technologies are commercially available. 41 00:01:57,845 --> 00:02:00,483 Then you need energy for warm water and heating. 42 00:02:01,130 --> 00:02:03,994 You can get this in a renewable way from the sun 43 00:02:03,994 --> 00:02:05,728 through solar thermal installations 44 00:02:05,728 --> 00:02:07,869 or from the ground and air with heat pumps. 45 00:02:08,023 --> 00:02:09,983 All of these technologies are available. 46 00:02:11,020 --> 00:02:13,371 Then you are left with the need for electricity. 47 00:02:14,001 --> 00:02:14,997 In principle, 48 00:02:14,997 --> 00:02:17,916 there are several ways to get renewable electricity, 49 00:02:17,916 --> 00:02:19,560 but how many buildings do you know 50 00:02:19,560 --> 00:02:21,199 which have a windmill on the roof, 51 00:02:21,199 --> 00:02:23,162 or a water power plant in the garden? 52 00:02:23,578 --> 00:02:26,391 Probably not so many because usually it doesn't make sense. 53 00:02:26,653 --> 00:02:30,150 But the sun provides abundant energy to our roofs and façades. 54 00:02:31,390 --> 00:02:35,840 The potential to harvest this energy at our buildings' surfaces is enormous. 55 00:02:36,763 --> 00:02:38,566 Let's take Europe as an example. 56 00:02:39,206 --> 00:02:43,641 If you would utilize all areas which have a nice orientation to the sun 57 00:02:43,641 --> 00:02:45,347 and they're not overly shaded, 58 00:02:45,347 --> 00:02:48,378 the power generated by photovoltaics 59 00:02:48,378 --> 00:02:51,843 would correspond to about 30 percent of our total energy demand. 60 00:02:52,303 --> 00:02:54,871 But today's photovoltaics have some issues. 61 00:02:55,746 --> 00:02:58,276 They do offer a good cost-performance ratio, 62 00:02:58,276 --> 00:03:00,966 but they aren't really flexible in terms of their design, 63 00:03:00,966 --> 00:03:02,789 and this makes aesthetics a challenge. 64 00:03:03,235 --> 00:03:05,710 People often imagine pictures like this 65 00:03:05,710 --> 00:03:07,907 when thinking about solar cells on buildings. 66 00:03:08,120 --> 00:03:09,986 This may work for solar farms, 67 00:03:09,986 --> 00:03:11,539 but when you think of buildings, 68 00:03:11,539 --> 00:03:12,542 of streets, 69 00:03:12,542 --> 00:03:13,572 of architecture, 70 00:03:13,572 --> 00:03:14,994 aesthetics does matter. 71 00:03:15,520 --> 00:03:19,067 This is the reason why we don't see many solar cells on buildings today. 72 00:03:19,567 --> 00:03:20,892 They just don't match. 73 00:03:21,861 --> 00:03:25,394 Our team is working on a totally different solar cell technology. 74 00:03:26,177 --> 00:03:28,461 It's just called organic photovoltaics, 75 00:03:28,461 --> 00:03:29,458 or OPV. 76 00:03:29,730 --> 00:03:31,480 The term organic describes 77 00:03:31,480 --> 00:03:33,995 that the material used for light absorption 78 00:03:33,995 --> 00:03:35,414 and charge transport 79 00:03:35,414 --> 00:03:37,531 are mainly based on the element carbon, 80 00:03:37,531 --> 00:03:38,726 and not on metals. 81 00:03:39,339 --> 00:03:42,185 We utilize the mixture of a polymer 82 00:03:42,185 --> 00:03:44,811 which is set up by different repeating units, 83 00:03:44,811 --> 00:03:46,864 like the pearls in a pearl chain, 84 00:03:46,864 --> 00:03:49,786 and a small molecule which has the shape of a football 85 00:03:49,786 --> 00:03:51,131 and is called fullerene. 86 00:03:51,906 --> 00:03:55,837 These two compounds are mixed and dissolved to become an ink. 87 00:03:56,437 --> 00:03:57,487 And like ink, 88 00:03:57,487 --> 00:04:02,190 they can be printed with simple printing techniques like slot-die coating 89 00:04:02,190 --> 00:04:06,001 in a continuous roll-to-roll process on flexible substrates. 90 00:04:06,855 --> 00:04:08,244 The resulting thin layer 91 00:04:08,244 --> 00:04:11,077 is the active layer absorbing the energy of the sun. 92 00:04:12,167 --> 00:04:14,668 This active layer is extremely effective. 93 00:04:15,522 --> 00:04:19,075 You only need a layer thickness of 0.2 micrometers 94 00:04:19,075 --> 00:04:20,837 to absorb the energy of the sun. 95 00:04:21,169 --> 00:04:23,767 This is 100 times thinner than a human hair. 96 00:04:24,876 --> 00:04:26,943 To give you another example, 97 00:04:26,943 --> 00:04:29,663 take one kilogram of the basic polymer 98 00:04:29,663 --> 00:04:31,874 and use it to formulate the active ink. 99 00:04:32,630 --> 00:04:34,062 With this amount of ink, 100 00:04:34,062 --> 00:04:38,068 you can print a solar cell the size of a complete football field. 101 00:04:39,242 --> 00:04:43,005 So OPV is extremely material efficient, 102 00:04:43,005 --> 00:04:46,295 which I think is a crucial thing when talking about sustainability. 103 00:04:47,354 --> 00:04:49,375 After the printing process, 104 00:04:49,375 --> 00:04:50,778 you can have a solar module 105 00:04:50,778 --> 00:04:53,195 which could look like this ... 106 00:04:53,195 --> 00:04:55,178 it looks a bit like a plastic foil, 107 00:04:55,178 --> 00:04:57,058 and actually has many of its features. 108 00:04:57,736 --> 00:05:00,629 It's lightweight ... 109 00:05:00,629 --> 00:05:02,602 it's bendable ... 110 00:05:02,602 --> 00:05:04,565 and it's semitransparent. 111 00:05:07,101 --> 00:05:09,504 But it can harvest the energy of the sun outdoors 112 00:05:09,504 --> 00:05:11,052 and also of this indoor light, 113 00:05:11,052 --> 00:05:13,918 as you can see with this small, illuminated LED. 114 00:05:14,975 --> 00:05:16,963 You can use it in its plastic form 115 00:05:16,963 --> 00:05:20,029 and take advantage of its low weight and it's bendability. 116 00:05:21,081 --> 00:05:24,570 The first is important when thinking about buildings in warmer regions. 117 00:05:25,325 --> 00:05:28,462 Here, the roofs are not designed to bear additionally heavy loads. 118 00:05:28,981 --> 00:05:31,787 They aren't designed for snow in winter for instance, 119 00:05:31,787 --> 00:05:35,978 so heavy silicon solar cells cannot be used for light harvesting, 120 00:05:35,978 --> 00:05:38,987 but these lightweight solar foils are very well suited. 121 00:05:40,179 --> 00:05:42,656 The bendability is important 122 00:05:42,656 --> 00:05:46,233 if you want to combine the solar cell with membrane architecture. 123 00:05:46,802 --> 00:05:50,383 Imagine the cells of the Sydney Opera as power plants. 124 00:05:50,932 --> 00:05:53,403 Alternatively, you can combine the solar foils 125 00:05:53,403 --> 00:05:55,944 with conventional construction materials like glass. 126 00:05:56,594 --> 00:05:59,008 Many glass façade elements contain a foil anyway 127 00:05:59,008 --> 00:06:00,701 to create laminated safety glass. 128 00:06:01,148 --> 00:06:04,775 It's not a big deal to add a second foil in the production process, 129 00:06:04,775 --> 00:06:07,710 but then the façade element contains the solar cell 130 00:06:07,710 --> 00:06:09,572 and can produce electricity. 131 00:06:11,155 --> 00:06:12,813 Besides looking nice, 132 00:06:12,813 --> 00:06:16,990 these integrated solar cells come along with two more important benefits. 133 00:06:17,738 --> 00:06:21,052 Do you remember the solar cell attached a roof I showed before? 134 00:06:21,331 --> 00:06:22,597 In this case, 135 00:06:22,597 --> 00:06:24,071 we install the roof first, 136 00:06:24,071 --> 00:06:25,121 and as a second layer, 137 00:06:25,121 --> 00:06:26,123 the solar cell. 138 00:06:26,123 --> 00:06:28,121 This is adding on your installation costs. 139 00:06:28,508 --> 00:06:30,668 In the case of integrated solar cells, 140 00:06:30,668 --> 00:06:32,151 at the site of construction, 141 00:06:32,151 --> 00:06:34,220 only one element is installed, 142 00:06:34,220 --> 00:06:36,852 being at the same time the envelope of the building 143 00:06:36,852 --> 00:06:37,959 and the solar cell. 144 00:06:38,815 --> 00:06:40,853 Besides saving on your installation costs, 145 00:06:40,853 --> 00:06:42,798 this also saves resources 146 00:06:42,798 --> 00:06:46,086 because the two functions are combined into one element. 147 00:06:46,383 --> 00:06:48,138 Earlier, I've talked about optics. 148 00:06:48,240 --> 00:06:50,486 I really like this solar panel -- 149 00:06:50,486 --> 00:06:53,407 maybe you have different taste or different design needs. 150 00:06:54,236 --> 00:06:55,254 No problem. 151 00:06:55,254 --> 00:06:56,750 With the printing process, 152 00:06:56,750 --> 00:07:01,025 the solar cell can change its shape and design very easily. 153 00:07:01,574 --> 00:07:04,112 This will give the flexibility to architects, 154 00:07:04,112 --> 00:07:06,171 to planners and building owners 155 00:07:06,171 --> 00:07:09,844 to integrate this electricty-producing technology as they wish. 156 00:07:15,513 --> 00:07:18,409 I want to stress that this is not just happening in the labs. 157 00:07:18,651 --> 00:07:21,422 It will take seven more years to get to mass adoption, 158 00:07:21,422 --> 00:07:24,837 but we are at the edge of commercialization, 159 00:07:24,837 --> 00:07:28,145 meaning there are several companies out there with production lines. 160 00:07:28,665 --> 00:07:30,638 They are scaling up their capacities, 161 00:07:30,638 --> 00:07:32,325 and so are we with the inks. 162 00:07:36,685 --> 00:07:37,685 (Shoe drops) 163 00:07:41,037 --> 00:07:43,472 This smaller footprint is much more comfortable. 164 00:07:43,872 --> 00:07:44,871 (Laughter) 165 00:07:45,150 --> 00:07:46,515 It is the right size, 166 00:07:46,515 --> 00:07:47,653 the right scale. 167 00:07:48,032 --> 00:07:51,998 We have to come back to the right scale when it comes to energy consumption. 168 00:07:52,654 --> 00:07:55,737 And making buildings carbon-neutral is an important part here. 169 00:07:56,350 --> 00:07:57,347 In Europe, 170 00:07:57,347 --> 00:08:00,765 we have the goal to decarbonize our building stock until 2050. 171 00:08:01,324 --> 00:08:04,596 I hope organic photovoltaics will be a big part of this. 172 00:08:05,962 --> 00:08:07,668 Here are a couple of examples. 173 00:08:08,171 --> 00:08:12,618 This is the first commercial installation of fully printed organic solar cells. 174 00:08:13,411 --> 00:08:16,976 Commercial means that the solar cells were printed on industrial equipment. 175 00:08:18,038 --> 00:08:21,408 The so-called "solar trees" were part of the German pavilion 176 00:08:21,408 --> 00:08:23,808 at the World Expo in Milan in 2015. 177 00:08:24,628 --> 00:08:26,900 They provided shading during the day 178 00:08:26,900 --> 00:08:29,171 and electricity for the lighting in the evening. 179 00:08:29,780 --> 00:08:33,336 You may wonder why this hexagonal shape was chosen for the solar cells. 180 00:08:33,744 --> 00:08:35,060 Easy answer: 181 00:08:35,060 --> 00:08:38,468 the architects wanted to have a specific shading pattern on the floor 182 00:08:38,468 --> 00:08:39,757 and asked for it, 183 00:08:39,757 --> 00:08:41,624 and then it was printed as requested. 184 00:08:42,348 --> 00:08:44,151 Being far from a real product, 185 00:08:44,151 --> 00:08:47,864 this free-form installation hooked the imagination of the visiting architects 186 00:08:47,864 --> 00:08:49,337 much more than we expected. 187 00:08:49,862 --> 00:08:52,827 This other application is closer to the projects 188 00:08:52,827 --> 00:08:54,740 and applications we are targeting. 189 00:08:55,060 --> 00:08:57,968 In an office building in São Paulo, Brazil, 190 00:08:57,968 --> 00:09:01,736 semitransparent OPV panels are integrated into the glass façade, 191 00:09:01,736 --> 00:09:03,009 serving different needs. 192 00:09:03,550 --> 00:09:06,798 First, they provided shading for the meeting rooms behind. 193 00:09:07,686 --> 00:09:12,406 Second, the logo of the company is displayed in an innovative way. 194 00:09:12,708 --> 00:09:14,557 And of course electricity is produced, 195 00:09:14,557 --> 00:09:16,880 reducing the energy footprint of the building. 196 00:09:17,632 --> 00:09:19,570 This is pointing towards a future 197 00:09:19,570 --> 00:09:21,981 where buildings are no longer energy consumers, 198 00:09:21,981 --> 00:09:23,397 but energy providers. 199 00:09:24,056 --> 00:09:26,979 I want to see solar cells seamlessly integrated 200 00:09:26,979 --> 00:09:28,881 into our building shells 201 00:09:28,881 --> 00:09:31,933 to be both resource-efficient and a pleasure to look at. 202 00:09:32,676 --> 00:09:36,789 For roofs, silicon solar cells will often continue to be a good solution. 203 00:09:37,199 --> 00:09:41,714 But to exploit the potential of all façades and other areas, 204 00:09:41,714 --> 00:09:44,021 such as semitransparent areas, 205 00:09:44,021 --> 00:09:45,202 curved surfaces 206 00:09:45,202 --> 00:09:46,704 and shadings, 207 00:09:46,704 --> 00:09:51,669 I believe organic photovoltaics can offer a significant contribution, 208 00:09:51,669 --> 00:09:56,873 and they can be made in any form architects and planners will want them to. 209 00:09:57,425 --> 00:09:58,442 Thank you. 210 00:09:58,729 --> 00:10:00,436 (Applause)