Scientists are always coming up with high-tech ways to develop alternative energies or clean water. But often these solutions are cost prohibitive or impractical for many of us, especially those in developing nations.
Scientists from two southern US universities have recently announced low-tech plant-based solutions to modern problems, hoping they’ll translate to the developing world.
Water Purification by Cactus
According to an abstract published in Environmental Science and Technology earlier this month, “Although nearly all newly derived water purification methods have improved the water quality in developing countries, few have been accepted and maintained for long-term use.” That’s because, according to one of the authors, Norma Alcantar, PhD, the residents don’t know how to actually use or maintain the technology.
According to New Scientist, “Alcantar found that the mucilage acted as a flocculant, causing the sediment particles to join together and settle to the bottom of the water samples. The gum also caused the bacteria to combine and settle, allowing 98 per cent of bacteria to be filtered from the water.”
It’s already been helping residents of a rural Mexico town clean their drinking water and Alcantar only sees it going further. “The World Health Organization recognizes a need for developing low-cost ways of cleaning water for household use,” she said, and the cactus, also known as Opuntia ficus-indica, is widely available.
According to the abstract, “This natural material not only displays water purification abilities, but it is also affordable, renewable and readily available.”
Pokeberry Solar Power
Civil War soldiers used the red dye of pokeberries as ink by to write letters home. And now scientists from Wake Forest University are hoping that the dye will help improve the efficiency of solar cells.
Wake Forest’s Center for Nanotechnology and Molecular Materials has already developed a fiber-based solar cell that’s both less expensive and more efficient that standard solar cells. And now the pokeberry dye will make it even more so. The dye acts as an absorber, helping the cell's tiny fibers trap more sunlight to convert into power.
Pokeberries proliferate even during drought and in rocky, infertile soil. That means residents of rural Africa, for instance, could raise the plants for pennies.
"We could provide the substrate," David Carroll, Ph.D., the center's director said. "If Africa grows the pokeberries, they could take it home. It's a low-cost solar cell that can be made to work with local, low-cost agricultural crops like pokeberries and with a means of production that emerging economies can afford."
Creative Commons image by Mary Emily Eaton and Daniel Schweich