聚噻吩

利用紫外可见光谱（UVVis）、循环伏安法（CV）和四探针法研究了聚噻吩膜的电子和电化学特性。

The electrical and electrochemical properties of PTh films were examined with the UV Vis spectrum , cyclic voltammetry ( CV ) and four probe method .

在众多的共轭聚合物中，聚噻吩（PTh）及其衍生物由于具有良好的电学性质和稳定性，易于制备，很高的电导性等优点，因此是最具有实际开发应用前景的导电聚合物。

Polythiophene ( PTh ) and its derivatives can be exploited in various application among many conjugative polymers , Because of their good electrical properties , environmental stability , excellent conductivity and easy preparation .

一种聚噻吩（Pt）衍生物在液氮条件下的电致发光性能

Electroluminescent Properties of a Kind of Polythiophen ( Pt ) Derivative in Liquid Nitrogen Condition

烷基取代聚噻吩（pat）类高聚物在常温下和液氮中的电致发光特性

Electroluminescent Properties of high Polymeric Compound of Alkyl Polythiophen ( pat ) in Normal Temperature and Liquid Nitrogen Condition

III型聚合物超电容器所用的导电高分子主要包括聚噻吩衍生物类，如：聚-3-（4-氟苯基）噻吩、聚二噻吩[3,4-b；3,4-d]噻吩，聚苯胺类等。

The major conducting polymers used in Type III supercapacitors are poly ( 3-phenylthiophene ) derivatives , polydithieno [ 3,4-B : 3,4-D ] thiophene and polyaniline derivatives et al .

聚噻吩在嵌入锂离子时LUMO轨道能级变为负值，成为电池反应得电子的正极。

The LUMO orbit energy level of polythiophene turned negative with the lithium ion intercalating into , and became the positive pole of the cell reaction that received electron .

为进一步有效地提高聚噻吩的空穴迁移率、降低聚合物的HOMO能级以及拓宽聚合物的吸收光谱，设计合成了一种新型的腈基取代的聚（噻吩-乙烯-噻吩）的聚合物CN-PTVT。

In order to improve the hole mobility of PT and lower the HOMO and broaden the absorption spectrum , a novel conjugated polymer , poly ( thienylene-vinylene-thienylene ) with cyano substituent ( CN-PTVT ) was synthesized .

聚噻吩对醌-氢醌的电催化作用阴阳两极降解废水中氯酚的研究

Degradation of chlorophenol in the wastewater with anodic - cathodic electrocatalysis

聚噻吩与取代聚噻吩的能带结构的计算

Band structure calculations on polythiophenes and 3 - substitute polythiophenes

聚噻吩/硒化镉共敏化电极的电沉积与光伏性能

Electrochemical synthesis and photovoltaic properties of polythiothene / CdSe electrode

可溶性聚噻吩甲烯包覆碳纳米管的三阶非线性光学响应

Third-order nonlinear response of conjugated polymer coated carbon nanotubes

苝二酰亚胺/聚噻吩复合膜的光电性能研究

Photoelectric properties of pht / pdi composite films

用透射电镜、矢量网络分析仪对聚噻吩-碳纳米管杂化材料的形貌、电磁性能进行了初步的研究。

The morphology , electromagnetic property of materials were studied by TEM and vector network analyzer .

但由于聚噻吩的加工性差、力学性能低等缺陷，使其应用受到制约。

But until now , its application is limited for several defects as poor working abilities and poor mechanical performances .

采用单体聚合法以FeCl3为引发剂进行噻吩的聚合反应，得到了导电性好的-γFe2O3/聚噻吩纳米复合材料。

We report here the preparation of an electrically conducting γ - Fe_2O_3 / polythiophene nanocomposites by using FeCl_3 as initiator .

于聚噻吩衍生物的主链上引进柔软的侧链基团可以助其稳定性及改善其加工性质，以利进行更完整的分析。

The introduction of flexible pendants chains onto the backbone improves the stability and processability allowing a more complete characterization of the materials .

本文以聚吡咯和聚噻吩为例，对导电高分子的紫外-可见光谱、红外光谱、远红外及微波区的波谱性能进行了综述，并分析了波谱性能与结构的关系。

This paper has reviewed the UV-VIS , IR , Far-IR and microwave of Conducting Polypyrrole and Polythiothene , and analysed the relation of spectra properties between structure .

将富勒烯与聚噻吩通过共价键连接在一起，可解决它们的共混膜中的相分离问题，有望提高器件效率，是未来有机和聚合物光伏材料研究的一个重要方向。

Connecting the PT donor with the fullerene acceptor together by covalent bond could solve the phase separation problem , so that it increases the PCE of the polymer solar cells , which should be an important future research direction in the polymer photovoltaic materials .

不同于一般的聚合物/碳黑复合材料的气敏响应特性，聚3己基噻吩/碳黑薄膜气体传感器在接触到NO2气体后，传感器电阻下降。

Unlike traditional polymer / carbon black composite , when poly ( 3-hexiylthiophene ) / carbon black film gas sensors were exposed to NO2 , their electrical resistance decreased .

聚3-辛基噻吩/碳纳米管导电复合材料制备与性能研究

Study on Preparation and Properties of Conducting Poly ( 3-octylthiophene ) / Carbon Nanotube Composites

二聚（2,5-噻吩乙烯撑）基态和激发态的电子结构：桥基和芳环取代的影响

Electronic Structures of Di ( thienylene vinylene ) of Ground and Excited States : Vinylene-and Ring-Substitution Effects

Cu~（2+）对不同相形态中聚3-己基噻吩光学性质的影响

Effect of Cu ~ ( 2 + ) on the Optical Properties of Poly ( 3-hexylthiophene ) in Different Phases

聚二氧乙基噻吩（PEDOT）不仅能产生较大的赝电容，而且具有高电导率、良好的光热稳定性等优良特性。

Poly ( 3,4-ethylenedioxythiophene ( PEDOT ) shows large pseudo-capacitance , high conductivity , good thermal stability and other excellent features .

最后，将单壁碳纳米管与有机半导体聚合物聚3-已基噻吩（P3HT）进行混合。

Finally , SWNTs are incorporated in an organic semiconducting polymer , poly ( 3-hexylthiophene ) ( P3HT ), to make a composite suspension .

拉曼光谱检测结果表明，聚（3-苯基噻吩）膜在生长过程中聚合物掺杂程度随着沉积电量密度的增加而增大。

Raman spectral results demonstrated that the doping level of P3PhT films increased with the increase of deposited charge density during the electrochemical growth process .

叙述了聚乙炔的合成和结构、聚乙炔掺杂以及近年来新开拓的导电聚合物-聚荼、硅-酞菁聚合物及聚噻吩薄膜；

It stated Polyacetylene synthesis and structure , mix of polyace-ty and recently developed new electric polymer : polynaphthal-ene , polysiliconphthalocyanine and polythiophene membrane .