cylonlover写道,“最近,旨在实现用太阳能作为电源的微电子技术的研究中,出现了一种更具效率的方案,研究者们制造出了直接集成了光电转换模块的芯片。”
Cylonlover writes "in a new, more efficient approach to solar powered microelectronics, researchers have produced a microchip which directly integrates photovoltaic cells."
本发明提供的背电极和具有该背电极的薄膜太阳能电池能够提高光电转换效率。
Back electrodes provided by the invention and thin film solar cells provided with the back electrodes can improve the photoelectric conversion efficiency.
本发明的薄膜具有更宽的能带隙,具有这种薄膜的太阳能电池能够显著提高光电转换效率和稳定性。
The thin film of the invention is provided with wider energy band gap, and solar cells provided with the thin film can significantly improve the photoelectric conversion efficiency and stability.
以液态电解质和凝胶电解质为空穴传输体,分别制备出了光电转换效率超过4.31%和2.75%的染料敏化太阳能电池。
Using a liquid or gel electrolyte as a hole transfer medium, the DSSCs with 4.31 % or 2.75 % global photon-to-electron conversion efficiency was obtained, respectively.
作为太阳能发电的主要的发电方式,太阳能光伏发电能否提高光电转换效率、经济高效地利用太阳能是首先要解决的问题。
As a major way of solar power generation, whether solar photovoltaic power generation can improve the photoelectric conversion efficiency, cost-effective use of solar energy is a priority to resolve.
硅太阳能电池等效串联电阻会影响其正向伏安特性和短路电流,而对开路电压没有影响,另外串联电阻的增大会使太阳能电池的填充因子和光电转换效率降低。
The equivalent series resistance of silicon solar cell can influence its straight volt-ampere property and short-circuit current, but have no influence on open-circuit voltage.
但它与目前在太阳能电池市场得到人们认可的硅太阳能电池相比,DSC的光电转换效率比较低。
However, the photoelectric conversion efficiency of DSC is somewhat low in comparison with the silicon solar cells, who has taken up the most part of the current market.
本发明提供的这种具有新型结构的太阳能转换装置,光吸收能力强,光电转换效率高。
The solar conversion device with the novel structure provided by the invention has strong capacity of light absorption and high photoelectric conversion efficiency.
本发明提供的薄膜太阳能电池及其制造方法能够进一步提高太阳能电池的光电转换效率。
The thin film solar cell and the manufacture method thereof provided by the invention can further improve the photoelectric conversion efficiency of solar cells.
因此提高DSC的光电转换效率是目前太阳能电池研究的一个重要方面。
So it's very important to further improve the photo-to-electric conversion efficiency of DSC.
因此提高DSC的光电转换效率是目前太阳能电池研究的一个重要方面。
So it's very important to further improve the photo-to-electric conversion efficiency of DSC.
应用推荐