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AIP Scilight of Rev. Sci. Instrum. 88, 093703 (2017)

AIP Scilight of Rev. Sci. Instrum. 88, 093703 (2017)

Staatspreis Patent 2016 für Prof. Alberta Bonanni

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New professor at the Solid State Physics Division - congratulations!

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Wir gratulieren Assoc. Prof. Dr. Stefan Müllegger zur Habilitation!

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Cover page of Phys. Rev. Lett. 113 133001 (2014).

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Transnational D-A-CH Project I-958

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RF Nano-Spectroscopy (Müllegger & Koch)

Research topics:

Single-Spin Microscopy and Spectroscopy- Radio Frequency Scanning Tunneling Microscopy and -Spectroscopy (rf-STS):
Low-temperature (LT) scanning tunneling microscopy (STM) and -spectroscopy (STS) are the methods of choice for studying electronic and geometric properties of matter at the atomic scale. We develop the low-temperature STM technique towards the detection of radio frequency (rf) signals up to several GHz. Our present focus is Single-Spin Spectroscopy with sub-nanometer spatial resolution.

Molecule-based Hybrid Nanostructures:
We utilize STM's capabilities of imaging, spectroscopy and manipulation of matter at atomic precision to explore self-aligned and artificial nanostructures formed by a small number (< 10) of molecules on single crystal surfaces. We study the change of molecular properties upon structure formation as well as properties of the ordered molecular ensemble. Recently, we discovered that one-dimensional molecular chains assemblies act as nanomechanical resonators. The image shows the World's Smallest (Man-Made) Mechanical Resonators.

Molecular Functionality:
Supporting functional molecules on crystal factes is an established technique in nanotechnology. We apply STM and STS to clarify specific aspects of molecular functionality with immediate importance to spintronics and catalysis. Conductance spectroscopy with sub-nanometer spatial resolution reveals electronic and magnetic properties of the frontier molecular orbitals; the latter are most relevant for the chemical reactivity of agent molecules.

Selected publications:

Radio Frequency Scanning Tunneling Spectroscopy for Single-Molecule Spin Resonance,
S. Müllegger, S. Tebi, A.K. Das, W. Schöfberger, F. Faschinger, and R. Koch,
Phys. Rev. Lett. 113, 133001 (2014)

Radio-wave oscillations of molecular-chain resonators,
S. Müllegger, M. Rashidi, K. Mayr, M. Fattinger, A. Ney and R. Koch,
Phys. Rev. Lett. 112, 117201 (2014)
Featured article. Selected for a viewpoint in Physics 7, 26 (2014)

Radio-Frequency Excitation of Single Molecules by Scanning Tunnelling Microscopy,
S. Müllegger, A. K. Das, K. Mayr and R. Koch,
Nanotechnology, 25, 135705 (2014)

Preserving Charge and Oxidation State of Au(III) Ions in an Agent-Functionalized Nanocrystal Model System,
S. Müllegger, W. Schoefberger, M. Rashidi, T. Lengauer, F. Klappenberger, K. Diller, K. Kara, J. V. Barth, E. Rauls, W. G. Schmidt and R. Koch,
ACS Nano 5, 6480 (2011)


The experiments are carried out at ultrahigh vacuum conditions (base pressure below 10-10 mbar) in a low-temperature (LT) scanning tunneling microscopy (STM) system (Createc). The sample temperature is typically at 5 K. The system features a separate UHV chamber for sample preparation including QMS and LEED systems for sample quality checks. We have adapted the STM with a home-built high-frequency excitation and detection system. It is capable of performing a novel type of conductance spectroscopy with simultaneous resonant excitation at radio-frequencies (< 5 GHz).

Group Members:

Reinhold Koch, Prof. Dr.
Stefan Müllegger, Assoc.Prof. Dr.
Jeffrey Schuster

Former Group Members:

Stefano Tebi (PhD)
Mohammad Rashidi (PhD)
Thomas Lengauer (Diploma)
Michael Fattinger (Master)
Karlheinz Mayr (Bachelor)


FWF & DFG, D-A-CH I958: High‐Valent Metal Tetrapyrroles for Surface‐Supported Catalysis

FWF, P 20773: ESR-STM of Organic Nano-Adsorbates on Silicon