Researchers at Germany\u2019s Fraunhofer ISE have developed a silicon heterojunction (SHJ) solar cell utilizing intense pulsed light-processed screen-printed metal contacts, and claim to have achieved a conversion efficiency of 23.0% with this approach.<\/p>\n\n\n\n

Instead of commonly utilized thermal annealing, the scientists used intense pulsed light (IPL) processing, which is a less expensive roll-to-roll technique for rapid thermal processing of various thin films. It is generally used for sintering silver-, copper-, or nickel-based electrodes of printed electronics and, in PV research, for sintering copper-based electrodes on silicon wafers and on metal-compound-based heterojunction structures.<\/p>\n\n\n\n

The group explained that IPL mostly consists of visible light, delivered in millisecond-lasting pulsed electromagnetic radiation for rapid heating of the cell\u2019s low-temperature metal contacts. \u201cOn average, IPL-annealed SHJ cells outperform their thermally treated pendants by 0.3\u20130.4%_{abs<\/sub>, in particular due to higher open-circuit voltages and fill factors,\u201d the group specified, adding that thermal annealing requires the use of bigger and more cost-intensive manufacturing tools.<\/p>\n\n\n\n}

IPL, however, is restricted by the temperature constraints of the sensitive amorphous silicon heterojunction structure. A more practical application for the technology, according to the researchers, are more temperature-tolerant  poly-Si-based tunnel oxide passivating contacts<\/a>, which they applied on both sides of the wafer.<\/p>\n\n\n\n

The contacts were coated with indium tin oxide (ITO) through DC magnetron sputtering, which is a vacuum coating technique commonly used for the deposition of many types of material in cell production and elsewhere. The radiative energy of the IPL processing,according to Fraunhofer ISE, is not only absorbed by the wafer, but also by the metallization itself. \u201cThis amount of energy absorbed by the metal contacts induces a significant finger resistance reduction,\u201d it stated, noting that this reduction also results in an increase of the contacts\u2019 lateral conductivity. Moreover, contact resistivities at the metal electrode\/ITO contact well below 10 mW\u00b7cm\u00b2 were achieved.<\/p>\n\n\n\n

\u201cFull-size IPL-processed busbarless SHJ cells are fabricated exhibiting an independently certified efficiency of up to 23.0%,\u201d the researchers affirmed, adding that conversion efficiency of the cell was certified by Fraunhofer ISE CalLab.<\/p>\n\n\n\n

Moreover, the IPL technique was also applied to screen-printed 2 cm x 2 cm-sized solar cells with TOPCon contacts on both sides and open-circuit voltage values of up to 709.3 mV were achieved.<\/p>\n\n\n\n

\u201cAccording to the International Technology Roadmap for Photovoltaic, silicon heterojunction technology is already growing into mass production,\u201d research co-author, J\u00f6rg Schube, told pv magazine<\/strong>. \u201cIn fact, it is expected to gain a market share of more than 10% within the next five years.\u201d He further explained that optimized industrial annealing processes using IPL could further pave the way for success.<\/p>\n\n\n\n

The IPL processing was described in the paper\u00a0Intense pulsed light in back end processing of solar cells with passivating contacts based on amorphous or polycrystalline silicon layers<\/a>, published in\u00a0Solar Energy Materials and Solar Cells<\/em>.<\/p>\n\n\n\n

From: https:\/\/www.pv-magazine.com\/2020\/09\/09\/intense-pulsed-light-processing-for-23-0-efficient-silicon-heterojunction-solar-cells\/<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

Scientists at Germany\u2019s Fraunhofer Institute for Solar Energy Systems (ISE) have used intense pulsed light (IPL) processing for the development of a busbarless silicon heterojunction solar cell. The device was manufactured with poly-Si-based tunnel oxide passivating contacts, which were applied on both sides of the wafer. Researchers at Germany\u2019s Fraunhofer ISE have developed a silicon…
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