Configuration Specific Desorption by Scanning Tunneling Microscope in Organic-Semiconductor Hybrid Systems
2008
Configuration-specific desorption of ethylene on a Ge(100) surface has been controlled at the nanoscale, induced using a scanning tunneling microscope (STM) tip at room temperature. Ethylene was found to adsorb in two distinct bonding geometries: (i) on top of a single Ge−Ge dimer (OT) and (ii) in a paired end-bridge between two neighboring Ge dimers within the same dimer row (PEB). Only OT configuration desorbs effectively at the sample bias voltages between −2.9 V and −3.1 V, tunneling current of 50 pA, and room temperature. The desorption yield for each configuration was measured as a function of sample bias voltages, where the voltage dependences of desorption yields show rapid increases between −2.9 V and −3.4 V for OT desorption, whereas between −3.2 V and −3.7 V, the PEB desorption increases rapidly. We have found that the applied sample bias voltages induce σGe-C hole-resonant inelastic tunneling, resulting in the dissociation of the Ge−C bonds. This selective, STM-induced desorption makes it pos...
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