High Resolution Scanning Tunneling Microscopy of a 1D Coordination Polymer with Imidazole-Based N,N,O Ligands on HOPG

Nina V. Fischer; Utpal Mitra; Karl-Georg Warnick; Viacheslav Dremov; Michael Stocker; Thorsten W?lfle; Wolfgang Hieringer; Frank W. Heinemann; Nicolai Burzlaff; Andreas G?rling; Paul Müller

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High Resolution Scanning Tunneling Microscopy of a 1D Coordination Polymer with Imidazole-Based N,N,O Ligands on HOPG

机译：HOPG上含咪唑基N，N，O配体的一维配位聚合物的高分辨率扫描隧道显微镜

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Novel κ~3-N,N,O ligands tend to form 1D coordination polymer strands. Deposition of 1D structures on highly oriented pyrolytic graphite (HOPG) was achieved from diluted solutions and polymer strands have been studied on HOPG by AFM/STM. Single strands were mapped by STM and their electronic properties were subsequently characterized by current imaging tunneling spectroscopy (CITS). Periodic density functional calculations simulating a polymer strand deposited on a HOPG surface are in agreement with the zig-zag structure indicated by experimental findings. Both the observed periodicity and the Zn–Zn distances can be reproduced in the simulations. Van der Waals interactions were found to play a major role for the geometry of the isolated polymer strand, for the adsorption geometry on HOPG, as well as for the adsorption energy.

机译：新的κ〜3-N，N，O配体趋向于形成一维配位聚合物链。通过稀释溶液可在高取向热解石墨（HOPG）上沉积一维结构，并通过AFM / STM在HOPG上研究了聚合物链。通过STM绘制单链，随后通过电流成像隧道光谱（CITS）表征其电子性能。模拟沉积在HOPG表面的聚合物链的周期性密度泛函计算与实验结果表明的之字形结构一致。观察到的周期性和Zn-Zn距离都可以在模拟中再现。发现范德华相互作用对分离的聚合物链的几何形状，HOPG的吸附几何形状以及吸附能量起着重要作用。

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《Chemistry: A European journal 》 |2014年第37期| 共7页
作者
Nina V. Fischer; Utpal Mitra; Karl-Georg Warnick; Viacheslav Dremov; Michael Stocker; Thorsten W?lfle; Wolfgang Hieringer; Frank W. Heinemann; Nicolai Burzlaff; Andreas G?rling; Paul Müller;
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正文语种 eng
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atomic force microscopy; coordination polymers; ligand design; scanning tunneling microscopy; zinc;

机译：原子力显微镜;配位聚合物;配体设计;扫描隧道显微镜;锌;

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1. High Resolution Scanning Tunneling Microscopy of a 1D Coordination Polymer with Imidazole-Based N,N,O Ligands on HOPG [J] . Nina V. Fischer, Utpal Mitra, Karl-Georg Warnick, Chemistry: A European journal . 2014 ,第37期

机译：HOPG上含咪唑基N，N，O配体的一维配位聚合物的高分辨率扫描隧道显微镜
2. Zn ~(II)/Cd ~(II)-coordination polymers from 1D chain, 2D layer to 3D framework with imidazole-based dicarboxylate ligand [J] . Dong W.-W., Li D.-S., Zhao J., Inorganica Chimica Acta . 2012 ,第Null期

机译：Zn〜（II）/ Cd〜（II）配位聚合物，由1D链，2D层到3D骨架，并带有咪唑基二羧酸酯配体
3. Chloro-bridged Cu(II) pairs linked into a 1D coordination polymer through a dinucleating imidazole-based ligand: 3D structure and magnetism [J] . Song Y, Massera C, Roubeau O, Polyhedron: The International Journal for Inorganic and Organometallic Chemistry . 2005 ,第12期

机译：通过双核咪唑基配体连接成1D配位聚合物的氯桥联Cu（II）对：3D结构和磁性
4. SCANNING TUNNELING MICROSCOPY STUDIES OF NANOTUBE-LIKE STRUCTURES ON THE HOPG SURFACE [C] . I.N. KHOLMANOV, M. FANETTI, L. GAVIOLI, NATO Advanced Study Institute on Carbon Nanotubes: From Basic Research to Nanotechnology . 2006

机译：扫描跳跃表面上纳米管状结构的隧道显微镜研究
5. Investigation of Supramolecular Coordination Self-Assembly and Polymerization Confined on Metal Surfaces Using Scanning Tunneling Microscopy [D] . Lin, Tao. 2014

机译：超分子配位自组装和聚合作用限制在金属表面的扫描隧道显微镜研究
6. Ni nanocrystals on HOPG(0001): A scanning tunnelling microscope study [O] . Michael Marz, Keisuke Sagisaka, Daisuke Fujita 2013

机译：HOPG（0001）上的镍纳米晶体：扫描隧道显微镜研究
7. Supramolecular organization of liquid-crystal dimers – bis-cyanobiphenyl alkanes on HOPG by scanning tunneling microscopy [O] . Klaudyna Krzyżewska, Tomasz Jaroch, Agnieszka Maranda-Niedbała, 2018

机译：通过扫描隧道显微镜通过扫描液体液晶二聚体 - 双 - 氰基苯基烷基烷基烷基烷基

High Resolution Scanning Tunneling Microscopy of a 1D Coordination Polymer with Imidazole-Based N,N,O Ligands on HOPG

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