Scientists from the Universities of Sheffield and Cambridge have shown that very very simple and low-cost manufacturing solutions in which flexible layers of material are deposited above substantial areas like cling-film might be made use of to produce efficient solar cell structures.

They’ve created a brand new strategy for producing polymer solar panels, which could drive down expenditures.

The study paves the way for new solar cell manufacturing tactics along with the promise of developments in renewable solar power.

Polymer solar cells are less costly to produce than conventional silicon solar cells and could potentially be produced in massive quantities. The researchers showed that when complicated mixtures of molecules in answer are spread onto a surface the various molecules separate towards the best and bottom in the layer in a way that maximizes the efficiency of the resulting solar cell.

They used the ISIS Neutron Source and Diamond Light Source at STFC Rutherford Appleton Laboratory in Oxfordshire to carry out the homework.“Our outcomes give crucial insights into how ultra-cheap solar power panels for domestic and industrial use may be manufactured on a large scale. Instead of employing complex and high-priced fabrication procedures to create a particular semiconductor nanostructure, high volume printing may very well be employed to generate nano-scale (60 nano-meters) films of solar cells which have been above a thousand times thinner than the width of a human hair. These films could then be used to generate cost-effective, light and easily transportable plastic solar cell devices including solar panels,” Dr Andrew Parnell with the University of Sheffield stated,

The research is in depth within the Journal Superior Power Supplies.