organic solar cell

Then we also introduced the development and work principles of organic solar cell .

其次介绍了有机太阳能电池的发展情况和工作原理。

Recent Development of Organic Solar Cell Materials (ⅱ )

有机太阳能电池材料近期进展（下）

Progress in the Porphyrin and Phthalocyanine Types Organic Solar Cell Materials

卟啉、酞菁类有机太阳能电池材料的研究进展

Research Progress of Bulk Heterojunction Organic Solar Cell

体相异质结型有机太阳能电池的研究进展

Organic solar cell is a new type cell and has become a hotspot all over the world now .

有机太阳电池是目前正在研究的一种新型太阳电池。

The Solid Organic Solar Cell

全固态有机太阳能电池

Advances in Organic Solar Cell Based on Fullerene-dyad and Conjugated Polymer

富勒烯稠合体与共轭聚合物作为有机太阳能电池材料的研究进展

Comparing with the traditional silica solar cells , organic solar cell is low-cost , highly flexible and green , so the research in this field has caused widely attention .

目前，太阳能电池，特别是有机太阳能电池由于其潜在的应用价值已经获得了广泛的关注。

These results demonstrated that through the introduction of the grating with appropriate period into the organic solar cell , enhanced efficiency can be expected by the surface plasmon enhanced absorption .

以上结果显示，在器件结构中引入适当周期的光栅，通过表面等离子增强吸收效应，可能显著提高太阳电池器件的效率。

Organic Solar cell ( OSC ) has demonstrated its broad commercial applications in the future due to its thin , flexible , easy-to-low temperature and large area of non-vacuum environment devices .

有机太阳能电池（OSCs）由于其在产品制造中具有的轻薄、柔性、易于在低温和非真空环境中大面积制备等特点，展示了其在商业应用中的广阔前景。

According to the requirements of preparation of solution processing , two D-A-D small molecular organic solar cell materials were synthesized using tetrabromo anhydride , and the physical and chemical properties and device performance were investigated .

针对可溶液加工的制备工艺需求，用四溴酸酐作为原料合成了两个D-A-D型有机小分子太阳能电池材料，并研究了它们的物理化学性质及器件性能。

This paper complete a numerical simulation of the theoretical model of an organic solar cell by using matlab , and it can be clearly demonstrated the current-voltage characteristics of the device , the carrier density distribution and so on .

本文通过利用matlab编程，完成了一个有机太阳能电池理论模型的数值模拟，它可以清晰的展示出器件的电流电压特性、载流子密度分布等。

Then , we used the ZnO nanoparticle film as the electron collection layer and fabricated the organic solar cell device . The structure of the device is ITO / ZnO / P3HT : PCBM / Ag . The best PCE of the device is 0.348 % .

利用纳米颗粒薄膜作为电子传输层，制备了结构为ITO/ZnO/P3HT：PCBM/Ag的太阳能电池器件，器件的最佳效率为0.348%。

Study on the Performance of Pure Organic Co-Sensitized Solar Cell

纯有机染料共敏化纳米晶太阳能电池的性能研究

Transport of exciton and charge carrier I in Schottky-type organic solid solar cell

激子和载流子输运研究I.有机肖特基型固态太阳电池

To figure out the internal factors that limit organic / inorganic heterojunction solar cell efficiency , I selected the P3HT / n-Si heterojunction and analyzed the generation , separation and transport mechanism of the heterojunction using the surface photovoltage technology .

为弄清楚限制有机/无机异质结太阳能电池效率的内在因素，选取了P3HT/n-Si异质结结构，利用表面光伏技术分析了其中光生电荷的产生、分离和传输机制。