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1)  Dye-sensitized
染料敏化
1.
Surface analysis of TiO_2 dye-sensitized film;
染料敏化TiO_2薄膜表面分析
2.
Research on the electron transport and back-reaction kinetics in TiO_2 films applied in dye-sensitized solar cells;
染料敏化太阳电池中TiO_2膜内电子传输和背反应特性研究
3.
Research status of electrolyte for dye-sensitized solar cells;
染料敏化太阳电池电解质的研究现状
2)  dye sensitization
染料敏化
1.
A summary of nanocrystalline TiO 2 film,dye sensitization and hole transporting materials is also given.
本文介绍了染料敏化纳米太阳能电池的结构和原理 ,对纳米TiO2 膜、敏化染料、空穴传输材料的研究进展进行了综述 。
3)  dye-sensitization
染料敏化
1.
An overview of nanocrystalline TiO_2 film,dye-sensitization and hole-transporting materials is also given,and the development prospect is described.
介绍了染料敏化纳米太阳能电池(DSSC电池)的结构和原理,对纳米TiO2膜、敏化染料、电解质的研究进展进行了综述,并对其应用前景作出展望。
4)  dye sensitized
染料敏化
1.
Nanocrystalline TiO2 dye sensitized solar cell (DSSC) is now highlighted in its high theoretical light to energy conversion efficiency, simple manufactural process, high transparency, and low cost.
纳米二氧化钛染料敏化太阳能电池(DSSC)由于具有理论转换效率高,透明性高,制备工艺简单,成本低等众多优点,近年来成为世界各国争相开发研究的热点。
2.
Beginning with a survey of structure and principle of dye sensitized nanocrystalline TiO 2 solar cell, the authors inquire into key factors influencing the efficiency of its conversion from light to electricity such as film of TiO 2 and sensitized dye and eleclrolyte; and moreover, discuss organic solar cell and the way forward of its study.
介绍染料敏化纳米晶 Ti O2 太阳电池的结构及其原理 ,对影响其光电转换效率的关键因素如纳米 Ti O2 膜、敏化染料、电解质做了探讨 。
3.
At present, More and more researcher pay attention on dye sensitized solar cell(DSSC).
最近,染料敏化太阳能电池受到越来越多研究人员的关注。
5)  dye-sensitization
染料光敏化
6)  dye-sensitizer
染料敏化剂
1.
The progress of the study on the dye-sensitizer for NPC are reviewed and some issues are put out for further study.
简要介绍了染料敏化纳米晶体光电化学太阳能电池(简称NPC电池)的发展、结构、工作原理和表征方法,并着重对纳米晶体光电化学太阳能电池染料敏化剂的研究进展进行了综述。
2.
The study on the conditions and the progress of dye-sensitizer for NPC are reviewed and some issues are put out for further study.
本文简要地介绍了DSC电池的组成结构、工作原理,并对染料敏化剂应具备的条件、不同染料敏化剂所取得的研究进展进行了综述。
补充资料:敏化
分子式:
CAS号:

性质: 不锈钢在450~800℃温度区间停留一段时间或缓慢冷却,从而导致晶界析出以Cr23C6为主的铬的碳化物的过程。敏化使晶界附近区域的铬含量降低,耐蚀性下降,在使用过程中发生晶间腐蚀的敏感性增大。

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