Panasonic Sets New Solar Cell Efficiency Record

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There are a few companies and institutes that stand out when I think of solar efficiency records. NREL, Sharp, SunPower, First Solar, Fraunhofer, and Panasonic are key ones that come to mind for me. Panasonic has lived up to its history of efficiency improvements by developing another record-breaking solar cell in the crystalline silicon-based solar cell category. The company it is knocking off the podium? Itself. Here’s more in another Solar Love repost:

panasonic solar cell efficiency record hit solar cell

Panasonic has a long history of breaking solar efficiency records. The company recently announced that it has broken an efficiency record again.

Its HIT solar cell has achieved a conversion efficiency of 25.6%, a new world record and “a major increase over the previous world record for crystalline silicon-based solar cells,” as Panasonic notes.

Notably, that previous record was also set by Panasonic. Back in February 2013, we announced that the company’s HIT solar cell had hit an efficiency of 24.7%.

“The achievement of this new record was made possible by further development of  Panasonic’s proprietary heterojunction technology to realize the high conversion efficiency and superior high temperature properties of the company’s HIT solar cells as well as adopting a back-contact solar cell structure, with the electrodes on the back of the solar cell, which allows the more efficient utilization of sunlight,” the company adds. Here’s more:

Outline of the core technologies behind the record conversion efficiency

1. Reduction in recombination loss
A key feature of HIT technology is its ability to reduce the recombination loss of charge carriers, particles of electricity generated by light, through laminating layers of high-quality amorphous silicon on the surface of the monocrystalline silicon substrate, where power is generated. By utilizing the technology to form a high-quality amorphous silicon film on the monocrystalline substrate while minimizing damage to the surface of the substrate, it has been possible to realize a high temperature coefficient of -0.25% per degree Celsius which is able to maintain a high conversion efficiency even with high open circuit voltage (Voc) and at high temperatures.

2. Reduction in optical loss
In order to increase the current in a solar cell, it is necessary to lead the sunlight which arrive at the cell’s surface to the monocrystalline silicon substrate, which is the layer which generates the power with less loss. Placing the electrodes on the reverse as back contacts allows the light to reach the substrate more efficiently. This has led to a marked improvement in short circuit current density (Jsc) to 41.8mA/cm2 over Panasonic’s
previous figure of 39.5mA/cm2 (in the case of a cell with a conversion efficiency of
24.7%).

3. Minimizing resistance loss
In solar cells, the generated electrical current is accumulated in the surface grid electrodes and output externally. Previously, the grid electrodes on the light-receiving side were optimized by balancing the thickness of the grid electrodes (thinning the grid electrodes to reduce the amount of light blocked) and the reduction of electrical resistance loss, but by placing the electrodes on the reverse side, it has become possible to reduce the resistive loss when the current is fed to the grid electrodes. In addition, a high fill factor (FF)*13 of 0.827, has been achieved, even at a practical cell size by improving resistance loss in the amorphous silicon layer.

Of course, Panasonic isn’t done. It intends to break this record some day as well.

Image Credit: Panasonic


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Zachary Shahan

Zach is tryin' to help society help itself one word at a time. He spends most of his time here on CleanTechnica as its director, chief editor, and CEO. Zach is recognized globally as an electric vehicle, solar energy, and energy storage expert. He has presented about cleantech at conferences in India, the UAE, Ukraine, Poland, Germany, the Netherlands, the USA, Canada, and Curaçao. Zach has long-term investments in Tesla [TSLA], NIO [NIO], Xpeng [XPEV], Ford [F], ChargePoint [CHPT], Amazon [AMZN], Piedmont Lithium [PLL], Lithium Americas [LAC], Albemarle Corporation [ALB], Nouveau Monde Graphite [NMGRF], Talon Metals [TLOFF], Arclight Clean Transition Corp [ACTC], and Starbucks [SBUX]. But he does not offer (explicitly or implicitly) investment advice of any sort.

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