How Solvent Mixtures Affect Organic Solar Cell Structure
NC State physicist Harald Ade and his group worked with teams of scientists from the United Kingdom, Australia and China to examine the physical structure and improve the production of polymer-based solar cells. In findings published in two separate papers appearing this month online in Advanced Energy Materials and Advanced Materials, the researchers show that some mixing of the two domains may not be a bad thing. In fact, if the morphology, or structure, of the mixed domains is small, the solar cell can still be quite efficient.
According to Ade, "We had previously found that the domains in these solar cells weren't pure. So we looked at how additives affected the production of these cells. When you manufacture the cell, the relative rate of evaporation of the solvents and additives determines how the active layer forms and the donor and acceptor mix. Ideally, you want the solvent to evaporate slowly enough so that the materials have time to separate -- otherwise the layers 'gum up' and lower the cell's efficiency. We utilized an additive that slowed evaporation. This controlled the mixing and domain size of the active layer, and the portions that mixed were small."
The efficiency of those mixed layers was excellent, leading to speculation that perhaps some mixing of the donor and acceptor isn't a problem, as long as the domains are small.
"We're looking for the perfect mix here, both in terms of the solvents and additives we might use in order to manufacture polymer-based solar cells, and in terms of the physical mixing of the domains and how that may affect efficiency," Ade says.
The research was funded by the U.S. Department of Energy. Ade is corresponding author on the Advanced Energy Materials paper, with post docs Brian Collins, John Tumbleston and graduate student Eliot Gann contributing to the work. Dr. Zhe Li of the University of Cambridge and Christopher McNeill of Monash University in Australia also contributed. Ade was a contributing author on the Advanced Materials paper, which was co-authored by Ade's post doc Wei Ma and Professor Jianhui Hou of Beijing's Chinese Academy of Sciences.
(Source: Science Daily)