Synthesis of Highly Fluorescent and Soluble 1,2,4- Linking Hyperbranched Poly(arylenevinylene) Featuring Intramolecular Energy Funneling

Zengqi Xie; Seong-Jun Yoon; Soo Young Park

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Synthesis of Highly Fluorescent and Soluble 1,2,4- Linking Hyperbranched Poly(arylenevinylene) Featuring Intramolecular Energy Funneling

机译：分子内能量漏斗的高荧光和可溶性1,2,4-连接超支化聚亚芳基亚乙烯基的合成

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The synthesis and optical properties of a highly soluble (>200 mg mL~(-1)) and highly fluorescent (φ_F in film = 0.64) 1,2,4-linking hyperbranched poly(arylenevinylene) (1,2,4-hb-PAV) prepared via Wittig reaction of A_3 (biphenyl-tricarbaldehyde) and B_2 (phosphonium salt) monomers is reported. The molecular weight of 1,2,4-hb-PAV can be precisely controlled by the amount of the base (NaOCH_3) used in the polymerization. The absorption and photoluminescence (PL) spectra of 1,2,4-hb-PAV shows distinct red-shifts compared to conventional 1,3,5-linking hyperbranched poly(arylenevinylene) (1,3,5-hb-PAV), attributed to the extended π-conjugation along ortho- (1,2-) and para- (1,4-) links. The inherent energy gradient from the shorter branches to the longer conjugated stem in 1,2,4-hb-PAV enabled a characteristic energy funneling effect, which is absent in conventional hyperbranched polymer of 1,3,5-hb-PAV.

机译：高溶解度（> 200 mg mL〜（-1））和高荧光（薄膜中的Φ_F= 0.64）1,2,4-交联的超支化聚亚芳基乙烯基（1,2,4-hb）的合成和光学性质报道了通过A_3（联苯-三甲醛）和B_2（phosph盐）单体的Wittig反应制备的-PAV）。 1,2,4-hb-PAV的分子量可以通过聚合反应中所用碱（NaOCH_3）的量精确控制。 1,2,4-hb-PAV的吸收和光致发光（PL）光谱显示出与传统的1,3,5-连接的超支化聚亚芳基亚乙烯基（1,3,5-hb-PAV）相比明显的红移，归因于沿邻位（1,2-）和对位（1,4-）链的扩展π共轭。 1,2,4-hb-PAV中从较短的分支到较长的共轭茎的固有能量梯度实现了特征性的能量漏斗效应，这在常规的1,3,5-hb-PAV超支化聚合物中是不存在的。

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《Advanced Functional Materials》 |2010年第10期|P.1638-1644|共7页
作者
Zengqi Xie; Seong-Jun Yoon; Soo Young Park;
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Center for Supramolecular Optoelectronic Materials and WCU Hybrid Materials Program, Department of Material Science and Engineering, ENG445, Seoul National University San56-1, Shillim-dong, Kwanak-gu, Seoul 151-744 (Korea);

rnCenter for Supramolecular Optoelectronic Materials and WCU Hybrid Materials Program, Department of Material Science and Engineering, ENG445, Seoul National University San56-1, Shillim-dong, Kwanak-gu, Seoul 151-744 (Korea);

rnCenter for Supramolecular Optoelectronic Materials and WCU Hybrid Materials Program, Department of Material Science and Engineering, ENG445, Seoul National University San56-1, Shillim-dong, Kwanak-gu, Seoul 151-744 (Korea);

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Synthesis of Highly Fluorescent and Soluble 1,2,4- Linking Hyperbranched Poly(arylenevinylene) Featuring Intramolecular Energy Funneling

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