Português

Researchers use laser doping to enhance the oxidation of IBC solar cells

914
2024-02-20 14:09:58
Ver tradução

Researchers from the International Solar Research Center at Konstanz and Delft University of Technology have discovered a method to pattern the back end of a cross finger rear contact battery, improving its efficiency by making certain parts of the solar cell thicker.

Researchers have developed a new technology that enhances oxidation in selected areas by patterning the back or back of IBC solar cells through laser doping processes.
The team found that this led to more effective patterning and also served as a protective layer for further manufacturing steps. This provides potential for expanding manufacturing scale and achieving commercialization of solar energy technology.

The new method utilizes the enhanced oxidation performance of phosphate glass layers in the local laser doped region with high phosphorus concentration. This method is expected to make these cells more efficient.
Since the development of the first batch of IBC batteries in the early 1970s, they have been widely used as the back or non lighting side of solar cells.

Compared to traditional double-sided contact solar cells, the advantage of IBC cells is that they eliminate any optical shadow loss caused by the metal fingers and busbars on the front. This makes solar cells have a higher short-circuit current density and reduces the complexity of battery interconnection within the module.

Therefore, a more comprehensive front surface texture and light capture scheme can be used on the front surface of the IBC structure. This design architecture makes it the perfect component for mechanically stacked batteries using higher bandgap technology.

The Fraunhofer Solar Systems Research Institute, headquartered in Germany, also achieved a record 26% conversion efficiency of double-sided contact silicon solar cells in 2021. Due to its low complexity, it is favored in industrial production.
Last September, researchers from the Fraunhofer Solar Energy Institute ISE and NWO Institute AMOLF also developed a multi junction solar cell with an efficiency of a record breaking 36.1%. This method stacks multiple layers of absorbing materials together, allowing each layer to effectively capture specific parts of the solar spectrum.

Source: Laser Net

Recomendações relacionadas
  • Polarization polariton topology pointing towards a new type of laser

    Semi light, partially matter quasi particles, known as excitons polaritons, can easily bypass obstacles and condense into a single coherent state - both of which are characteristics of topological insulators. Researchers from the United States and China have developed a new technology to manufacture microcavities from chloride based halide perovskites. They expect this work to lead to a new type o...

    2024-05-30
    Ver tradução
  • High Power Laser Assists Scientists in Discovering a New Stage of High Density and Ultra High Temperature Ice

    As is well known, the outer planets of our solar system, Uranus and Neptune, are gas giants rich in water. The extreme pressure on these planets is 2 million times that of the Earth's atmosphere. Their interiors are also as hot as the surface of the sun. Under these conditions, water exhibits a strange high-density ice phase.Researchers have recently observed one of the stages, called Ice XIX, whi...

    2023-10-11
    Ver tradução
  • Ortel launches advanced 1550nm laser to enhance LiDAR and optical sensing functions

    Ortel belongs to the Photonics Foundries group and has launched its latest innovative product - the 1786 1550 nm laser module, aimed at significantly improving optical sensing in various applications. This laser module is designed specifically for continuous wavelength operation and is a key component of systems that require coherent light sources for precise sensing in environments with fluctuati...

    2024-03-16
    Ver tradução
  • Toshiba has developed the world's highest precision 99.9% LiDAR technology

    Recently, Toshiba announced that in the field of LiDAR lidar for distance measurement, it has developed a technology that can track vehicles, people, and other objects with 99.9% accuracy, achieving the world's highest accuracy. And only using LiDAR to collect data can achieve 98.9% object recognition.In addition, the detection distance in rainstorm and dense fog environments has been increased by...

    2023-10-06
    Ver tradução
  • Overview of Residual Stress in Metal Additive Manufacturing: Detection Techniques, Numerical Simulation, and Mitigation Strategies

    Researchers from Shantou University have reported a review of residual stresses in metal additive manufacturing: detection techniques, numerical simulations, and mitigation strategies. The relevant paper titled "A comprehensive review of residual stress in metal additive manufacturing: detection techniques, numerical simulations, and mitigation strategies" was published in the Journal of the Brazi...

    2024-12-20
    Ver tradução