利用真空热蒸发的方法,在云母片上制备分子层数可控的锌卟啉(ZnTPP)分子薄膜.随着分子层数的增多,ZnTPP薄膜的光致荧光(Photoluminescence,PL)光谱从单体特征渐变为二聚体特征;原子力显微镜(Atomic Force Microscope,AFM)的图像中,ZnTP...利用真空热蒸发的方法,在云母片上制备分子层数可控的锌卟啉(ZnTPP)分子薄膜.随着分子层数的增多,ZnTPP薄膜的光致荧光(Photoluminescence,PL)光谱从单体特征渐变为二聚体特征;原子力显微镜(Atomic Force Microscope,AFM)的图像中,ZnTPP分子团簇成纳米尺度的岛状结构,非真空环境导致纳米岛进一步聚集,从而使二聚体特征峰荧光强度激增;样品荧光寿命表明在非真空环境下分子的二聚体衰减通道比例显著增加.展开更多
The formation of coordinated dimeric complexes bridged by axial ligands on surface is observed with the help of a 1,3,5-tris(10-carboxydecyloxy)benzene(TCDB) template through scanning tunneling microscopy(STM). ...The formation of coordinated dimeric complexes bridged by axial ligands on surface is observed with the help of a 1,3,5-tris(10-carboxydecyloxy)benzene(TCDB) template through scanning tunneling microscopy(STM). STM images of molecular adlayers of zinc tetraphenylporphyrin(Zn TPP), zinc phthalocyanine(Zn Pc), and their mixture are reported. Zn TPP and Zn Pc can spontaneously form highly an ordered structure with a 1:1 molar ratio, which is different from that of individual Zn Pc. The coordinated bimolecular complexes bridged with axial ligands, simply as Zn Pc–DPP–Zn TPP and Zn Pc–DPE–Zn Pc, are presented and the corresponding surface structures are compared. Zn Pc and Zn TPP can be connected by an axial ligand DPP and formed assembled structures out of surface. Two types of arrays with entirely new structure are obtained for the Zn Pc–DPE–Zn Pc complex. These bridged hybrid complexes provide an example of design of self-organized crystals on the basis of coordination through non-covalent interactions.展开更多
We present a study of spectroscopic identification towards the molecular aggregates of zinc tetraphenylporphyrin (ZnTPP) illustrating how the energy states and intermolecular interactions determine the tunable prope...We present a study of spectroscopic identification towards the molecular aggregates of zinc tetraphenylporphyrin (ZnTPP) illustrating how the energy states and intermolecular interactions determine the tunable properties of functional materials in condensation processes. Distinguishable fingerprints of ZnTPP nanorods and nanosheets are addressed utilizing X-ray diffraction (XRD), Raman and UV-vis absorption spectroscopies. Although these ZnTPPs are assigned to J-aggregation at different extent, the spectral analysis reveals a significant role of the intermolecular interactions associated with varying mesoscale architectures. Energy decomposition analysis (EDA) revealed that the varied ZnTPP aggregates are stabilized by altered dispersion interactions due to the dominant ~r...zr stacking between the monomers.展开更多
文摘利用真空热蒸发的方法,在云母片上制备分子层数可控的锌卟啉(ZnTPP)分子薄膜.随着分子层数的增多,ZnTPP薄膜的光致荧光(Photoluminescence,PL)光谱从单体特征渐变为二聚体特征;原子力显微镜(Atomic Force Microscope,AFM)的图像中,ZnTPP分子团簇成纳米尺度的岛状结构,非真空环境导致纳米岛进一步聚集,从而使二聚体特征峰荧光强度激增;样品荧光寿命表明在非真空环境下分子的二聚体衰减通道比例显著增加.
基金supported by the National Basic Research Program of China (No. 2013CB934200)National Basic Research Program of China (No. 2012CB933001)+1 种基金The Chinese Academy of Sciences (No. YZ201318)the National Natural Science Foundation of China (Nos. 21472029, 51173031, 91127043, 51203030, 51463002)
文摘The formation of coordinated dimeric complexes bridged by axial ligands on surface is observed with the help of a 1,3,5-tris(10-carboxydecyloxy)benzene(TCDB) template through scanning tunneling microscopy(STM). STM images of molecular adlayers of zinc tetraphenylporphyrin(Zn TPP), zinc phthalocyanine(Zn Pc), and their mixture are reported. Zn TPP and Zn Pc can spontaneously form highly an ordered structure with a 1:1 molar ratio, which is different from that of individual Zn Pc. The coordinated bimolecular complexes bridged with axial ligands, simply as Zn Pc–DPP–Zn TPP and Zn Pc–DPE–Zn Pc, are presented and the corresponding surface structures are compared. Zn Pc and Zn TPP can be connected by an axial ligand DPP and formed assembled structures out of surface. Two types of arrays with entirely new structure are obtained for the Zn Pc–DPE–Zn Pc complex. These bridged hybrid complexes provide an example of design of self-organized crystals on the basis of coordination through non-covalent interactions.
基金financially supported by the National Project “Development of Advanced Scientific Instruments Based on Deep Ultraviolet Laser Source"(No. Y31M0112C1)the National Basic Research Program of China(No. 2011CB808402)+1 种基金the National Thousand Youth Talents Program and Young Professionals Program in Institute of Chemistry, Chinese Academy of Sciences(No. Y3297B1261)the National Natural Science Foundation of China(No. 21373165)
文摘We present a study of spectroscopic identification towards the molecular aggregates of zinc tetraphenylporphyrin (ZnTPP) illustrating how the energy states and intermolecular interactions determine the tunable properties of functional materials in condensation processes. Distinguishable fingerprints of ZnTPP nanorods and nanosheets are addressed utilizing X-ray diffraction (XRD), Raman and UV-vis absorption spectroscopies. Although these ZnTPPs are assigned to J-aggregation at different extent, the spectral analysis reveals a significant role of the intermolecular interactions associated with varying mesoscale architectures. Energy decomposition analysis (EDA) revealed that the varied ZnTPP aggregates are stabilized by altered dispersion interactions due to the dominant ~r...zr stacking between the monomers.
