The simple answer to their question was a modified solar panel. Inspired by a natural leaf that converts water and carbon dioxide into sugar and oxygen in sunlight, the researchers looked for ways ...

Chemical engineers from École polytechnique fédérale de Lausanne (EPFL) have developed a solar-powered transparent, porous and conductive electrode, which uses an input stream of humid air to ...

The researchers used solar cells connected to electrodes immersed ... In 2015, however, continued improvements led to the ‘artificial leaf’, a one square centimetre electrode device that ...

These structures are special organs called rhinophores covered in tiny hairs that help the leaf sheep sense chemicals in the water and find food. Their tiny bodies are covered with green ...