Urdaniz Corina, Taherpour Saba, Yu Jisoo, Reina-Galvez Jose, Wolf Christoph
Center for Quantum Nanoscience, Institute for Basic Science (IBS), Seoul 03760, Korea.
Ewha Womans University, Seoul 03760, Korea.
J Phys Chem A. 2025 Mar 6;129(9):2173-2181. doi: 10.1021/acs.jpca.4c07627. Epub 2025 Feb 20.
The search for molecular or colloidal building units capable of autonomously organized configurations has been a long-standing endeavor that has resulted in the development of innovative material categories, such as metal-organic and covalent organic or long-range molecular networks. In particular, the possibility of using molecules on surfaces to create specific architectures, for example, those containing nanostructures of = 1/2 molecular spin, can enable versatile quantum materials and the exploration of future quantum devices. Transition-metal phthalocyanines are particularly attractive candidates as they are stable molecules that can host spin-bearing transition-metal ions in a planar conjugated ring. Here, we use density functional theory calculations to systematically study electronic and magnetic properties and hyperfine parameters for the whole series of 3 transition-metal atoms. We perform transport simulations of selected qubit candidates to further elucidate their suitability for molecular spin qubits on a surface.
寻找能够自主形成有序结构的分子或胶体构建单元,是一项长期的努力,催生了诸如金属有机、共价有机或长程分子网络等创新材料类别。特别是利用表面分子创建特定结构的可能性,例如那些包含1/2分子自旋纳米结构的结构,能够实现多功能量子材料,并推动未来量子器件的探索。过渡金属酞菁是特别有吸引力的候选物,因为它们是稳定的分子,能够在平面共轭环中容纳含自旋的过渡金属离子。在这里,我们使用密度泛函理论计算系统地研究了3种过渡金属原子系列的电子、磁性和超精细参数。我们对选定的量子比特候选物进行输运模拟,以进一步阐明它们在表面上作为分子自旋量子比特的适用性。
