Open AccessSuperconducting Scanning Tunneling Microscope Tip to Reveal Sub-millielectronvolt Magnetic Energy Variations on Surfaces
Author(s) -
Cristina Mier,
Benjamin Verlhac,
Léo Garnier,
Roberto Robles,
L. Limot,
Nicolás Lorente,
Deung-Jang Choi
Publication year - 2021
Publication title -
the journal of physical chemistry letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.563
H-Index - 203
ISSN - 1948-7185
DOI - 10.1021/acs.jpclett.1c00328
Subject(s) - excitation , scanning tunneling microscope , molecule , spin (aerodynamics) , conductance , superconductivity , materials science , quantum tunnelling , condensed matter physics , resolution (logic) , molecular physics , atomic physics , nanotechnology , chemistry , physics , organic chemistry , quantum mechanics , artificial intelligence , computer science , thermodynamics
Combining the complex ordering ability of molecules with their local magnetic properties is a little-explored technique to tailor spin structures on surfaces. However, revealing the molecular geometry can be demanding. Nickelocene (Nc) molecules present a large spin-flip excitation leading to clear changes of conductance at the excitation-threshold bias. Using a superconducting tip, we have the energy resolution to detect small shifts of the Nc spin-flip excitation thresholds, permitting us to reveal the different individual environments of Nc molecules in an ordered layer. This knowledge allows us to reveal the adsorption configuration of a complex molecular structure formed by Nc molecules in different orientations and positions. As a consequence, we infer that Nc layers present a strong noncollinear magnetic-moment arrangement.
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