Abstract
AbstractThe incorporation of Si atoms into organic compounds significantly increases a variety of functionality, facilitating further applications. Recently, on‐surface synthesis was introduced into organosilicon chemistry as 1,4‐disilabenzene bridged nanostructures were obtained via coupling between silicon atoms and brominated phenyl groups at the ortho position on Au(111). Here, we demonstrate a high generality of this strategy via syntheses of silole derivatives and nanoribbon structures with eight‐membered sila‐cyclic rings from dibrominated molecules at the bay and peri positions on Au(111), respectively. Their structures and electronic properties were investigated by a combination of scanning tunneling microscopy/spectroscopy and density functional theory calculations. This work demonstrates a great potential to deal with heavy group 14 elements in on‐surface silicon chemistry.
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