Structural, electronic and dielectric properties of free standing ultrathin nanowires of noble metals (Cu, Ag, Au and Pt) in linear, dimer, ladder and zigzag topologies have been studied by using ab initio density functional theory. Among the studied topologies of all the noble metals, ladder topology has been found most stable while the dimer topology was least stable. The ballistic conductance of all the studied wires except Pt wires, has been found to be topology dependent. The dielectric properties of the studied nanowires have been found to be significantly different from their bulk counterparts. A prominent peak structure in imaginary part of dielectric epsilon(2)), which reveals interband transitions in electronic band structure, has been found between 0.5 and 2.0 eV for linear, dimer topologies of Cu and Au wires along with all the topologies of Pt wires. The reflectance edge of different topologies of all the nanowires except ladder topology of Pt, has been found in infrared region, therefore, shows perfect reflectivity in the infrared region and makes them non-absorbing transparent conductors to the visible region. The ultrathin transparent conductors may find many useful applications in the optoelectronic devices.

• 出版日期2012-9