聚合物太阳能电池

利用无机分子在紫外的吸收和较宽的禁带宽度，分别研究了TiO2、ZnO纳米修饰层对聚合物太阳能电池吸收特性以及光伏性能的影响。

The influence of the nano-particles of TiO2 and ZnO to the absorbing characteristics and the photovoltaic performance of these polymer solar cells with modified layer were investigated respectively .

文中综述了聚合物太阳能电池材料的研究现状，特别对PPV类聚合物的合成、改性研究进展进行了详细的阐述，提出了存在问题并对其应用前景进行了展望。

This thesis summarized research status of the polymer solar cells materials , particularly detailed in the synthesis , modification and application of PPV .

对于聚合物太阳能电池而言，为了提高其光电能量转换效率，共轭聚合物应具有窄的带隙和低的HOMO能级。

To improve the power conversion efficiency of PSCs , conjugated polymers should have narrow bandgaps and deep HOMO energy levels .

本论文概述了聚合物太阳能电池（PSCs）的发展状况。

The advanced development on polymers solar cells ( PSCs ) was summarized in this thesis .

其中，聚合物太阳能电池（PSC）因为价格低廉、质量轻、弹性好、容易加工等优点受到人们的广泛关注。

Polymer photovoltaic cells ( PSCs ) have attracted attentions due to their potential low cost , light weight , flexibility , and easy manufacturing .

研究结果表明，NDF作为一种新的有前景的电子给体单元将有可能开发出一类高效率的聚合物太阳能电池材料。

The preliminary and encouraging results in this work show that NDF probably is a new and promising electron donor unit to develop high performance optoelectronic polymers .

硫化镉多臂纳米棒的制备及其在聚合物太阳能电池中的应用

Synthesis of Multi-armed CdS Nanorods and Their Application in Polymer Photovoltaic Cells

基于含硒窄带隙聚合物太阳能电池的性能

Performances of Photovoltaic Cells Based on Se-Containing Low-Bandgap Polymer

低能带隙共轭高分子作为聚合物太阳能电池材料的合成与研究

Synthesis and Properties of Novel Low Bandgap Conjugated Polymers for Application in Polymer Solar Cells

因此，石墨烯是有机聚合物太阳能电池的受体材料的一个非常好的选择。

Therefore , graphite is a very good choice to become receptor material in organic polymer solar cells .

有机聚合物太阳能电池具有轻、薄、柔等优点得到广泛的关注。

The organic polymer solar cells with the benefit of light , thin and soft have received extensive attention .

在聚合物太阳能电池中，活性层与电极的界面接触对器件性能和寿命有着非常重要的影响。

The interfacial contact between electrode and active layer plays a critical role in the performance and lifetime of PSCs .

聚合物太阳能电池，迄今为止以其原料价格低廉、生产工艺相对简单、可以大面积制造等为特点。

Polymer solar cells are by far characterized of low-cost raw material , simple process and being produced in large area .

聚合物太阳能电池由于其制备简单、重量轻、造价低廉、容易制备大面积柔性器件等优点得到广泛关注。

Polymer solar cells have been widely applied due to its simple preparation , light weight , low cost and large flexible area .

本论文主要研究电极修饰层对聚合物太阳能电池的光电转换效率和稳定性的影响。

The main objective of this work is to study the effect of interfacial layer on the performance and stability of polymer photovoltaic cells .

聚合物太阳能电池的潜在应用领域很宽，从柔性太阳能模块和半导体太阳能电池到建筑应用等等。

The potential applications of polymer solar cells are broad , ranging from flexible solar modules and semitransparent solar cells , to building applications .

本文就是基于这一理论，在P3HT：PCBM体系的聚合物太阳能电池中，引入银纳米颗粒，研究其对聚合物太阳能电池性能的影响。

In this paper , we study the effects of silver nanoparticles on the performance of polymer solar cells based on P3HT : PCBM .

但是到目前为止，聚合物太阳能电池的发展也同样面临着能量转化效率低、寿命短等难题。

But so far , the development of polymer solar cells is also faced with low energy conversion efficiency , short lifetime and so on .

本体异质结型聚合物太阳能电池的给体与受体的界面形态是影响能量转换效率的一个重要因素。

The interphase morphology of the donor and acceptor is a vital ingredient to affect the power conversion efficiency ( PCE ) of bulk-heterojunction polymer solar cells .

聚合物太阳能电池具有成本低、质量轻、容易制备大尺寸器件等优势，是太阳能电池研究中最为活跃的领域之一。

Polymer solar cells have been a subject of great interests , because of their advantages such as low cost , light weight and ease of large-area processing .

聚合物太阳能电池因其材料来源广泛且价格低廉、制备工艺简单、可实现柔性大面积等优点，而受到了广泛关注。

Polymer solar cells have attracted much interest for the variety and low price of organic materials , simple fabricated process , easy realization of large-size and flexibility .

新型粒子探测器&多气隙电阻板室的性能研究低能带隙共轭高分子作为聚合物太阳能电池材料的合成与研究

The Study on Performance of New Type Particle Detector-Multi-gap Resistive Plate Chamber ; Synthesis and Properties of Novel Low Bandgap Conjugated Polymers for Application in Polymer Solar Cells

湿法制备聚合物太阳能电池具有过程简单、大面积制备以及低成本等优点，它是新型太阳能电池技术走向应用的策略之一。

One of the strategies to achieve commercialized emerging solar cell is solution processable production due to the merit of easy process , large area , and low cost .

为了更深入地研究银纳米颗粒对有机太阳能电池的影响，我们将银纳米颗粒掺入到器件中的不同位置，设计出不同结构的聚合物太阳能电池。

In order to investigate the influence of the silver nanoparticles , we put the silver nanoparticles at different locations in the solar cells , and design different device structures .

半导体聚合物太阳能电池能够使用溶液技术进行制备，其具有生产低成本太阳能电池的独特优势，原因在于其材料和工艺的优点。

Based on semiconducting polymers , these solar cells are fabricated from solution-processing techniques and have unique prospects for achieving low-cost solar energy harvesting , owing to their material and manufacturing advantages .

结果发现：当银纳米颗粒与聚合物太阳能电池的活性层充分接触，而又不破坏其形貌的情况下，能够有效地改善有机太阳能电池的性能。

It is found that when the silver nanoparticles are fully contacted with the active layer of the cell , without destroying its morphology , they can improve the performance of the polymer solar cell effectively .

与无机太阳能电池相比，有机聚合物太阳能电池成本低、制作简单、柔性好并且易于大面积制造，是目前光伏领域的研究热点。

Compared with inorganic solar cells , organic polymer solar cells is simple , low cost , flexible and easy to large areas of manufacturing . It is the current photovoltaic research hot spots in the area .

本文简述了体相异质结聚合物太阳能电池的发展，包括其器件结构、原理、给体受体材料等。

We have briefly reviewed the development of the bulk heterojunction polymer solar cells , including their device structures , principles , materials of the donor and acceptor , etc. This new type of energy power has many advantages .

由于有机聚合物太阳能电池的转换效率较低，可以通过对不同活性材料的设计和选择方法的改进，使有机聚合物太阳能电池的性能上有所突破，缓解亟待解决的能源危机。

Because organic polymer solar cells photoelectric conversion efficiency is low , through improve the design of different active material and choice methods , in order to improve the performance of the organic solar cells , alleviate the energy crisis .

作为共轭聚合物太阳能电池的电子给体材料，要求在可见光区具有宽光谱和强吸收、高空穴迁移率、良好的溶解性能和易于加工性能、好的成膜性和热稳定性等。

As electron donor materials of conjugated polymer solar cells , the goal is to have wide spectrum and strong absorption in the visible region , high hole mobility , good solubility and easy processing performance , good film and thermal stability .