Physik Department E20, Technische Universität München, 85748 Garching, München (Germany).
IMDEA Nanoscience, 28049 Madrid (Spain).
Angew Chem Int Ed Engl. 2015 May 18;54(21):6163-7. doi: 10.1002/anie.201410802. Epub 2015 Apr 1.
The orthogonal coordinative properties of tetrapyrrole macrocycles and nitrile ligands have been used in a multistep procedure towards interfacial d-f hetero-bimetallic nanoarchitectures based on a free-base porphyrin derivative functionalized with meso-cyanobiphenylene substituents. Molecular-level scanning tunneling microscopy studies reveal that the porphyrin module alone self-assembles on Ag(111) in a close-packed layer with a square unit cell. Upon co-deposition of Gd atoms, a square-planar motif is formed that reflects the fourfold coordination of CN ligands to the rare-earth centers. The resulting nanoporous network morphology is retained following exposure to a beam of Co atoms, which induces selective porphyrin metalation and ultimately yields a gridlike 2D metallosupramolecular architecture.
四吡咯大环和腈配体的正交配位性质已被用于多步程序,以基于具有中位氰基联苯取代基的自由基卟啉衍生物的界面 d-f 杂双金属纳米结构。分子水平的扫描隧道显微镜研究表明,卟啉模块仅在 Ag(111)上以具有正方形单元的紧密堆积层自组装。在共沉积 Gd 原子后,形成了一个反映 CN 配体与稀土中心四配位的正方形平面基元。在暴露于 Co 原子束后,保留了所得的纳米多孔网络形态,这会诱导选择性的卟啉金属化,并最终生成网格状的 2D 金属超分子结构。
