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摘 要:采用量子化学密度泛函理论(DFT),在B3LYP水平上使用6-31g(d)基组对四苯并四氮杂卟啉α-位、β-位、α和β位引入甲氧基(OMe),进行结构优化.研究结果表明,α和β位同时引入取代基OMe时,H2Pc-αβ-(OMe)16分子的键长键角变化较明显,不同位置引入取代基对分子的红外吸收有影响.
关键词:四苯并氮杂卟啉;密度泛函理论;甲氧基取代
[中图分类号]O641.4 [文献标志码]A
Abstract:This paper adopts density functional theory in quantum chemistry,(DFT) B3LYP level,using 6-31g(d) basis set,to introduce the methoxy group(OMe) in the α-position or β-position and αβ-position of the phthalocyanine for optimizing structure.The results show that the bond length and bond angle of H2Pc-αβ-(OMe)16 molecule changed obviously when the molecular structure introduced the methoxy group(OMe) in the αβ-position.The substituents of the different positions on the molecular structure were introduced to influence the infrared absorption.
Key words:phthalocyanine;density functional theory;methoxyl substitutions
四苯并氮杂卟啉(酞菁)由四氮杂卟啉并上四个苯环组成,是芳香族大环有机化合物,其化学和物理性质由取代基的位置和种类决定.[1-9]酞菁分子化合物的功能性与酞菁周围取代基的相互作用密切相关,研究不同位置引入取代基后酞菁化合物内部相互作用的特性,可以更好地了解其结构与功能性質的相互关系.本实验在酞菁环外引入甲氧基(OMe)(在α位引入8个OMe生成H2Pc-α-(OMe)8,β位引入8个OMe生成H2Pc-β-(OMe)8,α和β位同时引入16个OMe生成H2Pc-αβ-(OMe)16)形成不同的酞菁化合物分子,对这些化合物的基态结构、几何参数及红外光谱图进行研究,探讨酞菁分子振动模式的内在机理.
1 计算部分
参考文献
[1]李梓萌,蔡雪.咔唑类取代酞菁锌染料敏化性能研究[J].牡丹江师范学院学报:自然科学版,2016(1):44-46.
[2]宁桧,孙守鹏,蔡雪.轴向取代卟啉锌结构和光谱性质的研究[J].牡丹江师范学院学报:自然科学版,2017(1):39-42.
[3]Senocak A,Demirbas E,Durmus M.Phthalocyanine-nanocarbon materials and their composites:Preparation,properties,and applications[J].Nanocarbon and its Composites,2019,23:677-709.
[4]Bahluli R,Keshipour S.Microcrystalline cellulose modified with Fe(II)- and Ni(II)-phthalocyanines:Syntheses,characterizations,and catalytic applications[J].Polyhedron,2019,169:176-182.
[5]Durmus M,Yaman H,Gol C,et al.Water-soluble quaternized mercaptopyridine-substituted zinc-phthalocyanines:Synthesis,photophysical,photochemical and bovine serum albumin binding properties[J].Dyes and Pigments,2011,91(2):153-163.
[6]Staden V,Frederick J.Application of phthalocyanines in flow-and sequential-injection analysis and microfluidics systems:A review[J].Talanta,2015,139:75-88.
[7]柴凤兰,赵开楼,张帆.金属酞菁类化合物的应用研究进展[J].当代化工,2017,46(1):165-172.
[8]崔娜,井晓慧,程振华,等.含有轴向配体的酞菁金属材料的合成与应用进展[J]. 石油化工,2015,44(8):1016-1023.
[9]丁兰兰,栾立强,施佳伟,等. 酞菁在光动力治疗中的应用[J]. 无机化学学报, 2013,29(8):1591-1598.
编辑:吴楠
关键词:四苯并氮杂卟啉;密度泛函理论;甲氧基取代
[中图分类号]O641.4 [文献标志码]A
Abstract:This paper adopts density functional theory in quantum chemistry,(DFT) B3LYP level,using 6-31g(d) basis set,to introduce the methoxy group(OMe) in the α-position or β-position and αβ-position of the phthalocyanine for optimizing structure.The results show that the bond length and bond angle of H2Pc-αβ-(OMe)16 molecule changed obviously when the molecular structure introduced the methoxy group(OMe) in the αβ-position.The substituents of the different positions on the molecular structure were introduced to influence the infrared absorption.
Key words:phthalocyanine;density functional theory;methoxyl substitutions
四苯并氮杂卟啉(酞菁)由四氮杂卟啉并上四个苯环组成,是芳香族大环有机化合物,其化学和物理性质由取代基的位置和种类决定.[1-9]酞菁分子化合物的功能性与酞菁周围取代基的相互作用密切相关,研究不同位置引入取代基后酞菁化合物内部相互作用的特性,可以更好地了解其结构与功能性質的相互关系.本实验在酞菁环外引入甲氧基(OMe)(在α位引入8个OMe生成H2Pc-α-(OMe)8,β位引入8个OMe生成H2Pc-β-(OMe)8,α和β位同时引入16个OMe生成H2Pc-αβ-(OMe)16)形成不同的酞菁化合物分子,对这些化合物的基态结构、几何参数及红外光谱图进行研究,探讨酞菁分子振动模式的内在机理.
1 计算部分
参考文献
[1]李梓萌,蔡雪.咔唑类取代酞菁锌染料敏化性能研究[J].牡丹江师范学院学报:自然科学版,2016(1):44-46.
[2]宁桧,孙守鹏,蔡雪.轴向取代卟啉锌结构和光谱性质的研究[J].牡丹江师范学院学报:自然科学版,2017(1):39-42.
[3]Senocak A,Demirbas E,Durmus M.Phthalocyanine-nanocarbon materials and their composites:Preparation,properties,and applications[J].Nanocarbon and its Composites,2019,23:677-709.
[4]Bahluli R,Keshipour S.Microcrystalline cellulose modified with Fe(II)- and Ni(II)-phthalocyanines:Syntheses,characterizations,and catalytic applications[J].Polyhedron,2019,169:176-182.
[5]Durmus M,Yaman H,Gol C,et al.Water-soluble quaternized mercaptopyridine-substituted zinc-phthalocyanines:Synthesis,photophysical,photochemical and bovine serum albumin binding properties[J].Dyes and Pigments,2011,91(2):153-163.
[6]Staden V,Frederick J.Application of phthalocyanines in flow-and sequential-injection analysis and microfluidics systems:A review[J].Talanta,2015,139:75-88.
[7]柴凤兰,赵开楼,张帆.金属酞菁类化合物的应用研究进展[J].当代化工,2017,46(1):165-172.
[8]崔娜,井晓慧,程振华,等.含有轴向配体的酞菁金属材料的合成与应用进展[J]. 石油化工,2015,44(8):1016-1023.
[9]丁兰兰,栾立强,施佳伟,等. 酞菁在光动力治疗中的应用[J]. 无机化学学报, 2013,29(8):1591-1598.
编辑:吴楠