Artificial Leaves

Artificial leaves, made from semiconductors, might one day help to remove excess airborne carbon dioxide and maybe even turn it into fuel. Real leaves, the green ones deployed by plants, perform many valuable tasks, not the least being the removal of CO₂ from air and its replacement with breathable O₂. Artificial CO₂ fixation needs several ingredients: light, a catalyst (such as CdS), and organic molecules. A new study by a Oak Ridge-Vanderbilt team of physicists suggests how this process can be made more efficient, a necessary step if artificial fixation is ever to practical on a large scale. Contrary to previous ideas, the study shows, fixation does not take place directly on the catalyst surface. Rather it's a two step process: ionization of the CO₂ occurs at the surface, creating a highly reactive radical which can later combine with other CO₂ molecules or organic molecules in the vicinity. Stephen Pennycook (pennycooksj@ornl.gov, 865-574-5504) says that his study looks at the role of catalyst surface roughness (flat planes of CdSe don't work as photocatalysts, but nanocrystals of the same material do) and at the possibility that nanocrystal doping might obviate the need for light, which would allow some fixation to take place in dark smokestacks. (Wang et al., Physical Review Letters, upcoming.)