Hydrogen-free cathodic exfoliation was utilized to obtain PdTe2 nanosheets (PTNS) with size of 300 nm×100 nm. Abundant highly exposed active sites and stronge electronic effect between Pd and Te endow...
a-axis oriented ZnMgO epitaxial thin films with a strong linear electro-optic (EO) effect were developed by radio frequency magnetron sputtering. The Mg incorporation into ZnO thin films not only obviously increases the transmittance at the wavelength range of 400–800 nm but also reduces the leakage current by 3–6 orders of magnitude. Furthermore, with the increase in the Mg content, the linear EO response enhances significantly. In particular, the derived effective EO coefficient rc of the Zn0.72Mg0.28O thin film is (7.6 ± 0.2) pm/V, which is over three times larger than the reported values for ZnO-based thin films and over twice larger than that of ZnO single crystals. The results and discussion conclude that an enhanced intrinsic contribution can be responsible for the increase in rc with Mg incorporation. These findings open the way for the ZnO-based thin films to EO devices in optical communication and optical interconnects.
The rising of thin-film-based plasmonic electro-optic (EO) devices triggers considerable exploitation of ferroelectric oxide thin films with large EO response. In this study, epitaxial (001)-orientated Ni-doped K(Ta0.6Nb0.4)O3 (KTN) films were fabricated on SrRuO3/SrTiO3 substrates via pulsed laser deposition. In comparison with a pure KTN film, a larger withstand electric field was achieved by Ni doping. The EO measurements revealed that the doping of Ni ions induced a decrease in the effective EO coefficient. Instead, the variation of refractive index by the applicable maximum electric field was increased due to the increment of withstand electric field, particularly for the case of 2% Ni dopant.
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