ST-INSTM Laboratory, Sincrotrone Trieste S.C.p.A. s.s.14 km. 163.5, 34149 Trieste, Italy.
ACS Nano. 2012 Dec 21;6(12):10800-7. doi: 10.1021/nn304134q. Epub 2012 Nov 20.
Here, it is demonstrated, using high-resolution X-ray spectroscopy and density functional theory calculations, that 2H-tetraphenyl porphyrins metalate at room temperature by incorporating a surface metal atom when a (sub)monolayer is deposited on 3d magnetic substrates, such as Fe(110) and Ni(111). The calculations demonstrate that the redox metalation reaction would be exothermic when occurring on a Ni(111) substrate with an energy gain of 0.89 eV upon embedding a Ni adatom in the macrocycle. This is a novel way to form, via chemical modification and supramolecular engineering, 3d-metal-organic networks on magnetic substrates with an intimate bond between the macrocycle molecular metal ion and the substrate atoms. The achievement of a complete metalation by Fe and Ni can be regarded as a test case for successful preparation of spintronic devices by means of molecular-based magnets and inorganic magnetic substrates.
在这里,我们使用高分辨率 X 射线光谱和密度泛函理论计算证明,当(亚)单层沉积在 3d 磁性衬底上时,例如 Fe(110)和 Ni(111),2H-四苯基卟啉通过掺入表面金属原子在室温下金属化。计算表明,当在 Ni(111)衬底上发生氧化还原金属化反应时,能量增益为 0.89eV,将 Ni 原子嵌入大环中。这是一种通过化学修饰和超分子工程在磁性衬底上形成 3d-金属有机网络的新方法,其中大环分子金属离子与衬底原子之间具有紧密的键合。通过 Fe 和 Ni 实现完全金属化可以被视为通过分子基磁体和无机磁性衬底成功制备自旋电子器件的一个测试案例。
