As part of a collaborative study by Pavia University (Italy) and the Center for Advancing Electronics Dresden at Technische Universität Dresden (Germany), scientists created an innovative technique to develop lead halide perovskite solar cells with efficiency like never before.
Impedance spectroscopy (IS) enables a thorough knowledge of the dynamics that underpin the functioning of optoelectronic and photovoltaic devices.
受到对未来经济的愿景的启发,由碳中和氨的支持,新的创业木星离子Pty Pty Ltd是最新的公司,从越来越多的企业与莫纳什大学技术区保持一致。
在正确的位置,一个小的客人分子可以使用环保溶剂生产节能有机太阳能电池。
The global photovoltaic (PV) trade is a key factor in increasing solar power generation and reducing total carbon emissions, helping to drive the world forward into a carbon-neutral future.
Intense focus has been placed on how the world will achieve net-zero by 2050. Perovskite solar cells have shown promise for improving the performance and efficiency of solar energy harvesting, but the environmental risks that arise from the use of toxic lead in them must be properly considered, states a paper published online in the One Earth journal.
使用高级光子源的Ultrabright X射线,研究人员确定阳光本身可以提高用于收集太阳能的2D材料的效率。亚博网站下载
太阳能是重要的研究和技术发展的重点,因为它能够从我们的太阳中收获廉价,丰富的能量。
Researchers from the University of Cambridge have used a suite of correlative, multimodal microscopy methods to visualise, for the first time, why perovskite materials are seemingly so tolerant of defects in their structure. Their findings were published today in Nature Nanotechnology.
Immense interest has been gained by flexible solar cells due to their excellent properties of lightweight, portability, and flexibility. Such features provide a guarantee for applications in areas such as wearable power sources, aerospace, and building-integrated photovoltaics.