Understanding the Sub-meV Precision-Tuning of Magnetic Anisotropy of Single-Molecule Junction

Abstract: Fine-tuning the magnetic anisotropy energy (MAE) of a magnetic molecule with a high precision of sub-meV has been realized experimentally by manipulating the tip of a scanning tunneling microscope (STM). Understanding the mechanisms behind the observed evolution of spin excitation energy is essentially important for potential spintronic applications. In particular, it is crucial to unveil the influence of the surrounding environment on the molecular spin state. To this end, we carry out the first-principles si… Show more

“…However, the numerical results of CASSCF are guaranteed to be quantitatively accurate, provided they converge with respect to the appropriate active space. 60,64 The reliability of such a hybrid method has already been verified in evaluating the MAE parameters of several organometallic molecular complexes on metal substrates, which shows good agreement with the corresponding experimental results. 58–64…”

“…60,64 The reliability of such a hybrid method has already been verified in evaluating the MAE parameters of several organometallic molecular complexes on metal substrates, which shows good agreement with the corresponding experimental results. 58–64…”

“…58,59 And later the method was successfully applied in several studies. [60][61][62][63][64] In this paper, with the aid of such a method we carry out a comprehensive investigation of electronic and magnetic properties of a NiCp 2 molecule in different environments, i.e., free molecule, adsorbed on Cu(100) and as a decorated tip apex. We calculate the magnetism and MAE of the NiCp 2 molecule in different environments, and find that both the molecular spin and MAE are robust.…”

“…58,59 And later the method was successfully applied in several studies. 60–64 In this paper, with the aid of such a method we carry out a comprehensive investigation of electronic and magnetic properties of a NiCp 2 molecule in different environments, i.e. , free molecule, adsorbed on Cu(100) and as a decorated tip apex.…”

Unravelling the robustness of magnetic anisotropy of a nickelocene molecule in different environments: a first-principles-based study

“…However, the numerical results of CASSCF are guaranteed to be quantitatively accurate, provided they converge with respect to the appropriate active space. 60,64 The reliability of such a hybrid method has already been verified in evaluating the MAE parameters of several organometallic molecular complexes on metal substrates, which shows good agreement with the corresponding experimental results. 58–64…”

“…60,64 The reliability of such a hybrid method has already been verified in evaluating the MAE parameters of several organometallic molecular complexes on metal substrates, which shows good agreement with the corresponding experimental results. 58–64…”

“…58,59 And later the method was successfully applied in several studies. [60][61][62][63][64] In this paper, with the aid of such a method we carry out a comprehensive investigation of electronic and magnetic properties of a NiCp 2 molecule in different environments, i.e., free molecule, adsorbed on Cu(100) and as a decorated tip apex. We calculate the magnetism and MAE of the NiCp 2 molecule in different environments, and find that both the molecular spin and MAE are robust.…”

“…58,59 And later the method was successfully applied in several studies. 60–64 In this paper, with the aid of such a method we carry out a comprehensive investigation of electronic and magnetic properties of a NiCp 2 molecule in different environments, i.e. , free molecule, adsorbed on Cu(100) and as a decorated tip apex.…”

Unravelling the robustness of magnetic anisotropy of a nickelocene molecule in different environments: a first-principles-based study

“…Additionally, a broad peak emerges in the new regime outside the superconducting gap at eV ≈ 1.7 mV. This new molecular configuration has been associated with a different oxidation state, with S = 2, stabilized by the hybridization of the Fe ion with the surface …”

Extending the Spin Excitation Lifetime of a Magnetic Molecule on a Proximitized Superconductor

Multireference Methods are Realistic and Useful Tools for Modeling Catalysis