London: Researchers have used a clever recycling strategy to develop a new eco-friendly battery using materials from alfalfa (lucerne seed) and pine resin.
"We think our discovery can open several doors to more environment-friendly, energy-efficient solutions for the batteries of the future," said Daniel Brandell, Senior Lecturer at the Department of Chemistry, Uppsala University, and one of the researchers behind the idea.
Present-day lithium batteries entail a number of resource-related and environmental problems. The world's commercially extractable lithium resources are limited and whether they can meet future needs is unclear.
Moreover, it is very difficult to recover lithium from the inorganic materials used to make modern batteries.
Lithium batteries also contain other, even rarer materials that are hard to replace and require large energy inputs and toxic chemicals for the recovery process.
In their latest study, researchers at Uppsala University's Angstrom Laboratory have developed a whole new battery concept.
The battery is based on recovery and renewable biological material with an energy content corresponding to that of current lithium-ion batteries.
Components of the battery are made of renewable organic biomaterials from alfalfa and pine resin, and can be recycled with a low energy input and non-hazardous chemicals, such as ethanol and water.
Although present-day batteries contain non-renewable inorganic materials, this is not the first time batteries composed of renewable materials have been presented. But the recycling and recovery strategy is a wholly new concept, researchers said.
Constructing a new battery from a spent one is also feasible. In other words, a straightforward process enables it to be reused.
The scientists have shown that the lithium extracted from a spent battery can be used for a new battery: all that needs to be added is more biomaterial.
Their battery proved capable of delivering as much as 99 per cent of the energy output from the first. With future modifications, this figure can very probably become even higher, researchers said.
The study will be presented in the scientific journal ChemSusChem.