Research ArticleMATERIALS SCIENCE

Potential energy–driven spin manipulation via a controllable hydrogen ligand

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Science Advances  14 Apr 2017:
Vol. 3, no. 4, e1602060
DOI: 10.1126/sciadv.1602060

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Abstract

Spin-bearing molecules can be stabilized on surfaces and in junctions with desirable properties, such as a net spin that can be adjusted by external stimuli. Using scanning probes, initial and final spin states can be deduced from topographic or spectroscopic data, but how the system transitions between these states is largely unknown. We address this question by manipulating the total spin of magnetic cobalt hydride complexes on a corrugated boron nitride surface with a hydrogen-functionalized scanning probe tip by simultaneously tracking force and conductance. When the additional hydrogen ligand is brought close to the cobalt monohydride, switching between a correlated S = 1/2 Kondo state, where host electrons screen the magnetic moment, and an S = 1 state with magnetocrystalline anisotropy is observed. We show that the total spin changes when the system is transferred onto a new potential energy surface that is defined by the position of the hydrogen in the junction. These results show how and why chemically functionalized tips are an effective tool to manipulate adatoms and molecules and a promising new method to selectively tune spin systems.

Keywords
  • scanning probe microscopy
  • molecular magnetism
  • Atomic Force Microscopy
  • scanning tunneling spectroscopy
  • inelastic tunneling
  • Kondo effect
  • density functional theory
  • force spectroscopy
  • nano magnetism
  • potential energy surfaces

This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license, which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.

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