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ACS News Service Weekly PressPac: September 19, 2018
Origami inspires highly efficient solar steam generator
“Nature-Inspired, 3D Origami Solar Steam Generator toward Near Full Utilization of Solar Energy”
ACS Applied Materials & Interfaces
Water covers most of the globe, yet many regions still suffer from a lack of clean drinking water. If scientists could efficiently and sustainably turn seawater into clean water, a looming global water crisis might be averted. Now, inspired by origami, the Japanese art of paper folding, researchers have devised a solar steam generator that approaches 100 percent efficiency for the production of clean water. They report their results in ACS Applied Materials & Interfaces.
Solar steam generators produce clean water by converting energy from the sun into heat, which evaporates seawater, leaving salts and other impurities behind. Then, the steam is collected and condensed into clean water. Existing solar steam generators contain a flat photothermal material, which produces heat from absorbed light. Although these devices are fairly efficient, they still lose energy by heat dissipation from the material into the air. Peng Wang and colleagues wondered if they could improve energy efficiency by designing a three-dimensional photothermal material. They based their structure on the Miura fold of origami, which consists of interlocking parallelograms that form “mountains” and “valleys” within the 3D structure.
The researchers made their solar steam generator by depositing a light-absorbing nanocarbon composite onto a cellulose membrane that was patterned with the Miura fold. They found that their 3D device had a 50 percent higher evaporation rate than a flat 2D device. In addition, the efficiency of the 3D structure approached 100 percent, compared with 71 percent for the 2D material. The researchers say that, compared to a flat surface, origami “valleys” capture the sunlight better so that less is lost to reflection. In addition, heat can flow from the valleys toward the cooler “mountains,” evaporating water along the way instead of being lost to the air.
The authors acknowledge funding from the King Abdullah University of Science and Technology.
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