A. Kirakosian scite author profile

We have observed reversible light-induced mechanical switching for individual organic molecules bound to a metal surface. Scanning tunneling microscopy (STM) was used to image the features of individual azobenzene molecules on Au(111) before and after reversibly cycling their mechanical structure between trans and cis states using light. Azobenzene molecules were engineered to increase their surface photomechanical activity by attaching varying numbers of tert-butyl (TB) ligands ("legs") to the azobenzene phenyl rings. STM images show that increasing the number of TB legs "lifts" the azobenzene molecules from the substrate, thereby increasing molecular photomechanical activity by decreasing molecule-surface coupling.

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Band Splitting for Si(557)-Au: Is It Spin-Charge Separation?

Losio

et al. 2001

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It has been proposed that the Si(557)-Au surface exhibits spin-charge separation in a one-dimensional electron liquid. Two narrowly spaced bands are found which exhibit a well-defined splitting at the Fermi level. That is incompatible with the assignment to a spinon-holon pair in a Luttinger liquid. Instead, we propose that the two bands are associated with two nearly degenerate atomic chains, or a chain of step atoms with two broken bonds. Such an assignment explains why the surface is metallic despite an even number of electrons per unit cell.

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Erratum: Fractional Band Filling in an Atomic Chain Structure [Phys. Rev. Lett.90, 176805 (2003)]

Crain¹,

Kirakosian²,

Altmann³

et al. 2004

Phys. Rev. Lett.

166

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A. Kirakosian

Reversible Photomechanical Switching of Individual Engineered Molecules at a Metallic Surface

Band Splitting for Si(557)-Au: Is It Spin-Charge Separation?

Erratum: Fractional Band Filling in an Atomic Chain Structure [Phys. Rev. Lett.90, 176805 (2003)]

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