Dave Savastano12.03.08
The world-renowned Fraunhofer Institute for Solar Energy Systems (ISE) has continued progress in producing high efficiency solar cells using Aerosol Jet printing equipment developed by Optomec. ISE’s most recent results were presented on October 1, 2008 at the Crystal Clear “Workshop on Metallization for Crystalline Silicon Solar Cells” held in Ultrecht, The Netherlands. The Aerosol Jet printed solar cells achieved efficiencies of over 20% when combined with Light Induced Plating (LIP) and Annealing, versus an average efficiency for screen-printed mono-crystalline front junction silicon solar cells in the range of 16–18%. The narrower, higher integrity collector lines produced by Aerosol Jet deposition systems have higher conductivity and a lower shadowing effect, thereby increasing cell efficiency. In addition, because the process is non-contact, Optomec’s Aerosol Jet system can print on thinner wafers and with less breakage than screen- printing.
The Fraunhofer study states “So far, the front side metallization holds the main potential for a further increase in cell efficiency. The main targets are the reduction of the metallized area to reduce shading losses, a low contact resistivity to a lowly doped emitter, and a high line conductivity to transport the current as loss-free as possible out of the cell.”
“The cells fabricated in this work combine the advantages of a new advanced front side metallization with an already established rear contact process, which are both industrially feasible. The front side grid was aerosol jet printed and light induced plated achieving line widths below 45 micron. On solar cells with an 110V/sq emitter record cell efficiencies of 20.3% were measured. In fact in a recent work, Fraunhofer ISE has found that the optical width of an aerosol jet printed and plated contact embedded in a module is only 43% of its geometrical width further reducing fill factor and providing increased cell/module efficiencies.”
The Fraunhofer study states “So far, the front side metallization holds the main potential for a further increase in cell efficiency. The main targets are the reduction of the metallized area to reduce shading losses, a low contact resistivity to a lowly doped emitter, and a high line conductivity to transport the current as loss-free as possible out of the cell.”
“The cells fabricated in this work combine the advantages of a new advanced front side metallization with an already established rear contact process, which are both industrially feasible. The front side grid was aerosol jet printed and light induced plated achieving line widths below 45 micron. On solar cells with an 110V/sq emitter record cell efficiencies of 20.3% were measured. In fact in a recent work, Fraunhofer ISE has found that the optical width of an aerosol jet printed and plated contact embedded in a module is only 43% of its geometrical width further reducing fill factor and providing increased cell/module efficiencies.”