Effect of Ultrasonication on Optical Properties and Electronic States of Conjugated Polymer MEH-PPV

IF 3.1 4区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Meng WU, Gui-zhong YANG, Meng WANG, Wei-zhi WANG, Min WANG, Tian-xi LIU
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引用次数: 3

Abstract

Poly[2-methoxy-5-(2'-ethyl-hexyloxy)-1,4-phenylene vinylene](MEH-PPV) solutions with different concentrations were prepared in chloroform for different ultrasonication times. The ultraviolet absorption and photoluminescence(PL) spectra of the MEH-PPV solutions were measured, and the electronic states of the polymer chains under different experimental conditions were studied. The results showed that the effects of ultrasonication on the dilute and concentrated solutions were different. After ultrasonication, the intensity of the absorption peak at 280 nm significantly decreased, relative to the absorption peak at 500 nm for both dilute and concentrated solutions, indicating that the proportion of the two excited states in the polymer chains had changed. For dilute MEH-PPV solutions, the blue-shifted absorption(at about 500 nm) and PL spectra show that ultrasonication also led to polymer chain degradation and thus shortened the effective conjugation length. For concentrated solutions, however, the peak positions of the absorption spectra remained unchanged. In addition, the effects of the solution temperatures on the optical spectra for the MEH-PPV solutions were also discussed.

超声对共轭聚合物MEH-PPV光学性质和电子态的影响
在氯仿中制备了不同浓度的聚[2-甲氧基-5-(2′-乙基-己氧基)-1,4-苯基乙烯基](MEH-PPV)溶液,并进行了不同超声时间的超声处理。测定了MEH-PPV溶液的紫外吸收光谱和光致发光光谱(PL),研究了不同实验条件下聚合物链的电子态。结果表明,超声波对稀、浓溶液的影响是不同的。超声处理后,无论稀溶液还是浓溶液,相对于500 nm处的吸收峰,280 nm处的吸收峰强度都明显降低,说明聚合物链中两激发态的比例发生了变化。对于稀释的MEH-PPV溶液,蓝移吸收(约500 nm)和PL光谱表明,超声作用也导致聚合物链降解,从而缩短了有效共轭长度。而对于浓溶液,吸收光谱的峰位保持不变。此外,还讨论了溶液温度对MEH-PPV溶液光谱的影响。
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来源期刊
CiteScore
5.30
自引率
6.50%
发文量
152
审稿时长
3.0 months
期刊介绍: The journal publishes research articles, letters/communications and reviews written by faculty members, researchers and postgraduates in universities, colleges and research institutes all over China and overseas. It reports the latest and most creative results of important fundamental research in all aspects of chemistry and of developments with significant consequences across subdisciplines. Main research areas include (but are not limited to): Organic chemistry (synthesis, characterization, and application); Inorganic chemistry (bio-inorganic chemistry, inorganic material chemistry); Analytical chemistry (especially chemometrics and the application of instrumental analysis and spectroscopy); Physical chemistry (mechanisms, catalysis, thermodynamics and dynamics); Polymer chemistry and polymer physics (mechanisms, material, catalysis, thermodynamics and dynamics); Quantum chemistry (quantum mechanical theory, quantum partition function, quantum statistical mechanics); Biochemistry; Biochemical engineering; Medicinal chemistry; Nanoscience (nanochemistry, nanomaterials).
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