硅太阳能电池

开路电压V。。可以作为衡量晶硅太阳能电池发电性能的主要标准。

The open circuit voltage Voc can be used as a measure of crystalline silicon solar cell power generation performance standard .

染料敏化太阳能电池（Dye-SensitizedSolarCell，DSC）作为新一代的薄膜电池，由于具有高光电转化效率、低成本、绿色环保及简便的生产过程，因此有望替代传统硅太阳能电池。

As a new type of thin film solar cell , dye-sensitized solar cell ( DSC ) is an alternative to silicon solar cell due to its high photoelectric conversion efficiency , low cost , environmental friendly , and simple manufacture .

本文还讨论了α－Si：H中载流子俘获效应的研究在高稳定性PIN型非晶硅太阳能电池研制中的重要性。

We also discuss the importance of carrier trapping effects to the stability of PIN α - Si : H solar cells .

目前小面积DSC的光电转换效率已接近非晶硅太阳能电池的水平，但是要实现染料敏化太阳能电池的产业化，必须研究大面积染料敏化太阳能电池。

Currently , the photoelectric conversion efficiency of small area DSC is close to the level of amorphous silicon solar cell .

基于P-N结的硅太阳能电池的数值分析

Simulation of Silicon Solar Cells Based on P-N Junction

非晶硅太阳能电池用优质TCO膜研究

A Study of High Quality TCO Film Used in a-Si : H Solar Cell

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 .

而其中一个有效的工序就是在硅太阳能电池上沉积氢化非晶氮化硅（a-SiNx：H）薄膜作为其减反膜。

An effective procedure is to deposit hydrogenated amorphous silicon nitride ( a-SiN_x : H ) anti-reflection coatings ( ARCs ) on silicon solar cells .

在晶体硅太阳能电池可利用的波段中，波长大于600nm的光子占总光子数的60%左右。

Among the photons available to crystalline Si solar cells , about 60 % of the solar photon flux occurs at wavelength greater than 600 nm .

本文评述了我国多层片式陶瓷电容器、PDP平板显示器、硅太阳能电池、电子封装等的发展现状以及对电子浆料的要求，同时还评述了贱金属浆料的发展趋势。

The development of the chip ceramic capacitor , PDP ( plasma displays ), silicon solar cell and electronic package was reviewed in the present paper , and the requirements to electronic pastes and the growing trend of base metals electronic pastes were introduced .

铁路信号硅太阳能电池供电系统技术规范

Technical code for railway signal silicon solar cell power supply system

用于硅太阳能电池的高效减反射膜

Anti - reflection Coating of Higher Efficiency on Si Solaode

非晶硅太阳能电池生产工艺用气分析方法研究

Analysis of Gases used in the Manufacture of Amorphous Silicon Solar Cells

非晶硅太阳能电池载流子收集长度的自动测量

Automatic measurement of the carrier collection length in a-si : h solar cells

激光专用机在非晶硅太阳能电池制备中的应用

Application of the Laser Patterning Machine in the Fabrication of A-Si Solar Cells

热性能对晶体硅太阳能电池的效率影响研究

Thermal Properties of Crystalline Silicon Solar Cells on the Efficiency of Impact Study

非晶硅太阳能电池的电加载热象无损检测

The study of Thermography Nondestructive Testing by electrical loading

酞菁类聚合物/硅太阳能电池的制备与研究

Preparation and Properties of PMPc / Si Solar Cells

硅太阳能电池的丝网印刷技术

Silk Screen Printing Technology of Silicon Solar Cell

最高稳定效率为10.3%的薄膜微晶硅太阳能电池已经研制成功。

Efficiencies higher than 10 % have been demonstrated for microcrystalline silicon solar cells .

非晶硅太阳能电池研究现状

The Status of Amorphous Silicon Solar Cell

非晶硅太阳能电池ZnO：Al/Al复合背电极增反工艺优化

The Optimization of ZnO : Al / Al Compound Back Reflector in a-Si film Solar Cell

异质结硅太阳能电池a-Si：H薄膜的研究

Analysis of the Design for a-Si : H thin film in a-Si / c-Si Heterojunction Solar Cells

空间用抗辐照玻璃盖片是一种用于太空飞行器上硅太阳能电池表面的防护材料。

Anti-irradiation Cover Glass for Astrospace is a protection material for silicon solar battery on Space Craft .

绒面硅太阳能电池

Black Silicon Solar Cells

总结各实验结果，制定出一套工业晶体硅太阳能电池栅线综合优化方案。

Summarize each experimental conclusion , develop a set of industrial crystalline silicon solar cells finger integrated optimization scheme .

对于薄片化的硅太阳能电池，背面钝化显得越来越重要了。

The rear passivation is more and more important for the thinner wafers that is the trend of photovoltaic industry .

但由于非晶硅太阳能电池的光电转换效率较低，限制了其大规模生产。

However , large-scale production of amorphous silicon solar cells is limited because of the rather low photoelectric conversion efficiency .

高效率低成本的晶体硅太阳能电池的制备对于大规模利用太阳能发电有着十分重要的意义。

High efficiency and low cost crystalline silicon solar cells are very important for the large-scale application of solar energy .

该公司在混凝土板和一层钢化玻璃之间放置了一层硅太阳能电池层。

The company has placed layers of silicon solar cells in between concrete slabs and a layer of tempered glass .