We tested oxidized titanium layers as barriers for hybrid Josephson junctions with high $I_cR_n$-products and for the preparation of junctions for tunneling spectroscopy. For that we firstly prepared junctions with conventional superconductor electrodes lead and niobium, respectively. By tuning the barrier thickness we were able to change the junctions behavior from a Josephson junction to tunnel-like behavior applicable for quasi-particle spectroscopy. Subsequently, we transferred the technology to junctions using Co-doped BaFe$_2$As$_2$ thin films prepared by pulsed laser deposition as base electrode and evaporated Pb as counter electrode. For barriers with a thickness of 1.5,nm we observe clear Josephson effects with $I_cR_n$,$approx$,90,$mu$V at 4.2,K. These junctions behave SNS-like and are dominated by Andreev reflection transport mechanism. For junctions with barrier thickness of 2.0,nm and higher no Josephson but SIS- or SINS-like behavior with a tunnel-like conductance spectrum was observed.
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