TY - JOUR U1 - Zeitschriftenartikel, wissenschaftlich - begutachtet (reviewed) A1 - González-García, Lola A1 - Maurer, Johannes H. M. A1 - Reiser, Beate A1 - Kanelidis, Ioannis A1 - Kraus, Tobias T1 - Ultrathin gold nanowires for transparent electronics: Breaking barriers JF - Procedia Engineering N2 - Novel types of Transparent Conductive Materials (TCMs) based on metal nanostructures are discussed. Dispersed metal nanoparticles can be deposited from liquids with moderate thermal budgets to form conductive films that are suitable for thin-film solar cells, displays, touch screens, and nanoelectronics. We aim at new TCMs that combine high electrical conductivity with optical transparency and mechanical flexibility. Wet-processed films of randomly arranged metallic nanowires networks are commercially established and provide a relatively cost-effective, scalable production. Ultrathin gold nanowires (AuNWs) with diameters below 2nm and high aspect ratios have recently become available. They combine mechanical flexibility, high optical transparency, and chemical inertness. AuNWs carry oleylamine capping ligands from synthesis that cause high contact resistances at their junctions. We investigated different annealing processes based on temperature and plasma treatment, to remove the ligands after deposition and to allow electrical conductivity. Their effect on the resulting nanostructure and on the material properties was studied. Scanning Electron Microscopy (SEM) and optical spectroscopy revealed changes in the microstructure for the different post-treatments. We found that the conductivity and the stability of the TCM depended strongly on its final microstructure. We demonstrate that the best results are obtained using H2-plasma treatment. KW - nanowires KW - sintering KW - transparent electronics Y1 - 2016 UN - https://nbn-resolving.org/urn:nbn:de:bsz:291:415-1623 U6 - https://doi.org/10.1016/j.proeng.2015.08.1120 DO - https://doi.org/10.1016/j.proeng.2015.08.1120 VL - 141 SP - 152 EP - 156 ER -