Sierra Magazine: Explore, enjoy and protect the planet.
Printer-friendly version Share:  Share this page on FacebookShare this page on TwitterShare this page by emailShare this page with other services

INNOVATE | Solar Designs from Nature

By David Ferris

comments | previous 3 of 4 next
Innovate
comments | previous 3 of 4 next

Gaze into the heart of a sunflower and you'll notice that the seeds are arranged in a series of interlocking spirals. Each floret sits at an angle of 137.5 degrees to its neighbor. Engineers at MIT found that a structure like the sunflower's is ideal for a concentrated solar plant in which a central tower is surrounded by thousands of mirrors that bounce light to the tower's tip. By arranging mirrors at the same angle as the florets, the researchers modeled a new design that reduced land use by 16 percent and boosted the installation's efficiency.


Fond of Fronds

Jong Bok KimOne sunny day in May 2010, Jong Bok Kim sat outside his Princeton University office staring at a shrub. Kim, a postdoctoral researcher in chemical and biological engineering, wanted to find the best skin for a solar cell. Would the most electricity be produced by a surface of tiny strips, pyramids, or mirrors? Then he realized that the shrub held the answer.

Kim returned to his desk to read up on how leaves gather light. He marveled at their genius: The facade of a leaf is blanketed with transparent cells that work like magnifying lenses. And the microterrain is scored with millions of ridges that guide light rays deep inside.

Kim, 34, knew how to create a rough surface like that on the nanoscale; while in college in Seoul, Korea, he had worked on making better LED displays by tinkering with their molecular structure. So he created a solar cell skin that mimicked that of a leaf, and he measured how much light entered the cell. "I knew it would increase efficiency, but I didn't know by how much," Kim says. Surprisingly, his panel with the leaflike skin absorbed six times more infrared light than one with a flat surface.

To compound the usefulness, Kim conducted his experiment using a plastic solar cell instead of the usual silicon. These cells yield a fraction of the electricity but are far cheaper and can withstand stretching and bending. Plastic cells could make a flexible skin for, say, a backpack. Kim is tinkering with fabric that spends much of its life in sunshine--curtains. If draperies are meant to block light, he figures, those frustrated photons might as well be captured by a plastic solar curtain to create some useful electricity.

To make the solar curtain more powerful, he intends to go back and learn more from the bushes. "What could be better than a leaf?" he says.

Illustrations by Brown Bird Design


Sierra Club® and "Explore, enjoy and protect the planet"® are registered trademarks of the Sierra Club. © 2024 Sierra Club.
The Sierra Club Seal is a registered copyright, service mark, and trademark of the Sierra Club.