Add to ORKGThe switching behavior of surface‐supported molecular units excited by current, light, or mechanical forces is determined by the shape of the adsorption potential. The ability to tailor the energy landscape in which a molecule resides at a surface gives the possibility of imposing a desired response, which is of paramount importance for the realization of molecular electronic units. Here, by means of scanning tunneling microscopy, a triazatruxene (TAT) molecule on Ag(111) is studied, which shows a switching behavior characterized by transitions of the molecule between three states, and which is attributed to three energetically degenerate bonding configurations. Upon tunneling current injection, the system can be excited and continuously dr...
We propose to utilize azobenzene as a nanomolecular switch which can be triggered by transmitting el...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
Nonlocal addressing—the “remote control”—of molecular switches promises more efficient processing fo...
The switching behavior of surface-supported molecular units excited by current, light, or mechanical...
The switching behavior of surface‐supported molecular units excited by current, light, or mechanical...
Functional molecular groups mounted on specific foot structures are ideal model systems to study int...
Nonlocal addressing—the “remote control”—of molecular switches promises more efficient processing fo...
Excitation of single molecules with electrons tunneling between a sharp metallic tip of a scanning t...
Excitation of single molecules with electrons tunneling between a sharp metallic tip of a scanning t...
Excitation of single molecules with electrons tunneling between a sharp metallic tip of a scanning t...
The cis-trans isomerization of CH3S-Au-SCH3 driven by the tip of the scanning tunneling microscope i...
Directionality is key for the functionality of molecular machines, which is often achieved by built-...
Induction of chirality in planar adsorbates by hydrogenation of phthalocyanine molecules on a gold s...
Based on previous work with very similar azobenzene derivatives, this study of para-TBA (2,2′,5,5′-t...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
We propose to utilize azobenzene as a nanomolecular switch which can be triggered by transmitting el...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
Nonlocal addressing—the “remote control”—of molecular switches promises more efficient processing fo...
The switching behavior of surface-supported molecular units excited by current, light, or mechanical...
The switching behavior of surface‐supported molecular units excited by current, light, or mechanical...
Functional molecular groups mounted on specific foot structures are ideal model systems to study int...
Nonlocal addressing—the “remote control”—of molecular switches promises more efficient processing fo...
Excitation of single molecules with electrons tunneling between a sharp metallic tip of a scanning t...
Excitation of single molecules with electrons tunneling between a sharp metallic tip of a scanning t...
Excitation of single molecules with electrons tunneling between a sharp metallic tip of a scanning t...
The cis-trans isomerization of CH3S-Au-SCH3 driven by the tip of the scanning tunneling microscope i...
Directionality is key for the functionality of molecular machines, which is often achieved by built-...
Induction of chirality in planar adsorbates by hydrogenation of phthalocyanine molecules on a gold s...
Based on previous work with very similar azobenzene derivatives, this study of para-TBA (2,2′,5,5′-t...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
We propose to utilize azobenzene as a nanomolecular switch which can be triggered by transmitting el...
Molecular switches represent a fascinating class of functional molecules, whose properties can be re...
Nonlocal addressing—the “remote control”—of molecular switches promises more efficient processing fo...