The bottom-up construction of materials on solid surfaces has emerged as a powerful strategy for tailoring nanostructures with unique properties. Our research explores the synthesis and characterization of one dimensional (1D) and two dimensional (2D) materials on atomically well-defined surfaces, which serve as supports, templates, and catalysts for chemical reactions. We employ molecular...
Silicon metal-oxide semiconductor (MOS) device structures are vital for realizing quantum computing devices based on single atoms acting as qubits in silicon. These atoms must be located within ~20 nm of the Si/SiO2 interface to allow proper operation of control electrodes and read-out structures. [1] Qubits store quantum information in electron–nuclear spin states, which are highly sensitive...
