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▲ [21p-221A-3] Negative Differential Conductance on Au25 Nanocluster Single-Electron Transistor
Keywords:Single-electron transistor, Au25 nanocluster, Negative differential conductance
Currently, single-electron transistors (SETs) considered as one of the candidates of nextgeneration transistors, since SETs have advantages for low power consumption and multi-logic circuits. Here, we report single-electron transistors (SETs) based on the Au25 cluster as Coulomb island toward a stable room temperature operation. Au25 cluster consists of icosahedral Au13 core as well as distinct bonding arrangement named “extend motif” (-S-Au-S-Au-S-) at the gold-thiolate interface [1], and the core diameter of Au25 cluster is only 1.2 nm. We synthesized Au25 nanocluster with 18 ligand molecules of 16 phenylethanethiol (PET) and 2 acetylthio-bipheny-thiol. For the Au25 cluster SET fabrication, we have fabricated ultra-fine hemispheric electroless gold plated (H-ELGP) Pt-based nanogap electrodes. The Au25 cluster has been chemisorbed between H-ELGP Pt-based nanogap electrodes from its solution. Clear gate voltage dependence of the Id-Vd and dId/dVd-Vd characteristics on single Au25 cluster SET was obtained in Figure 1(a). Negative differential conductance (NDC) were observed as negative dId/dVd peaks at positive Vd. Experimental stability diagrams as function of Vd and Vg with the color maps of dId/dVd also clearly showed gate voltage dependence. NDR peak voltage move as lines parallel to the borderlines of the diamonds in the regions where the current is not blocked at positive Vd.