CuPc was dissolved by the method of Lewis acid complexation-mediated solubilization (LAPS), whose mechanism was discussed.
用路易斯酸配位法溶解了铜酞菁,并对其溶解机理进行了简单探讨。
The electronic structures and UV-Vis spectra of phthalocyanine(H2Pc) and copper phthalocyanine(CuPc) were studied by using INDO/CI method.
用INDO/CI方法研究了酞菁和酞菁铜的电子结构和紫外-可见光谱。
The SERS signal of C60 _ doping CuPc indicates that an intermolecular complex due to charge transfer interaction may be formed between C60 and CuPc.
对C60掺杂酞菁铜的表面增强拉曼光谱(SERS)研究显示,C60与酞菁铜之间生成了电荷转移较小、结构比较松散的分子间电荷转移复合物。
The solvent is no strange odour, no corrosion, no toxicity, antioxidization, low price and easy recovery, CuPc had been obtained with high quality in 98% yield.
该溶剂具有无怪味、无毒、无腐蚀、抗氧化、价格低、易再生可循环利用等优点。用它作溶剂可制得高质量、高收率的铜酞菁,收率达98%。
The solvent is no strange odour, no corrosion, no toxicity, antioxidization, low price and easy recovery, CuPc had been obtained with high quality in 98% yield.
该溶剂具有无怪味、无毒、无腐蚀、抗氧化、价格低、易再生可循环利用等优点。用它作溶剂可制得高质量、高收率的铜酞菁,收率达98%。
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