Research of organic charge-transfer complex on the spectroscopy is helpful for understanding the band structure, conductivity, and crystal structure.
有机电荷转移复合物的光谱表征对于了解样品的电子结构、电性能和单晶结构相的归属是一种行之有效的手段。
This paper introduces the concept, character, category and formation mechanism of charge-transfer complex and its application in pharmaceutical and biomedicine.
介绍了电荷转移络合物概念、特点、分类、形成机制及在生物医药方面的应用。
OBJECTIVE to establish an accurate method to determine atropine sulfate in eyedrops by charge transfer complex spectrophotometry.
目的建立用电荷转移络合分光光度法测定硫酸阿托品滴眼液含量的方法。
METHOD:To utilize the reaction of ciprofloxacin lactate and 2.4 dinitroresorcinol to form the charge transfer complex compound that was measured by UV spectrophotometry.
方法:利用乳酸环丙沙星与2 .4 二硝基酚产生反应,可形成电荷转移络合物,以分光光度法测定。
The application of charge transfer complex in pharmaceuticals analysis in recent years is reviewed in this paper with 21 references.
综述了电荷转移络合物在药物定量分析方面的应用,包括反应的条件、机理等。
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 bond characteristics and charge transfer in the V-N-vacancy complex are analyzed.
分析了V - N -空位复合体的成键特性和电荷转移情况。
The UV absorption spectrum shows that the interaction between gossypol and DNA does not result in the formation of a covalent bond or a charge transfer complex.
紫外吸收光谱显示棉酚与DNA相互作用没有共价键形成。 也不生成电荷迁移络台物。
It is showed that bromine anions and charge transfer complex formed in the doping process enhanced the charge carrier concentration then promote the conductivity of PANI.
结果表明,和氢溴酸对PANI的质子酸掺杂不同,溴掺杂过程中产生的溴负离子增加了PANI的载流子浓度,形成了电子转移复合物,提高了聚苯胺的电导率。
It is showed that bromine anions and charge transfer complex formed in the doping process enhanced the charge carrier concentration then promote the conductivity of PANI.
结果表明,和氢溴酸对PANI的质子酸掺杂不同,溴掺杂过程中产生的溴负离子增加了PANI的载流子浓度,形成了电子转移复合物,提高了聚苯胺的电导率。
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