Precursor Homogeneity and Crystallization Effects in Chemical Solution Deposition‐Derived Alkaline Niobate Thin Films

Abstract: Chemical solution deposition‐derived potassium niobate and sodium niobate thin films have been prepared under protective atmosphere using an alkoxide approach. A profound dependency of the quality and homogeneity of the resulting thin films on the preparation of the alkaline precursor has been found. In addition to this, an additional increase in microstructure homogeneity for the significantly more sensitive potassium niobate system is obtainable if the precursor solution is further stabilized by acetylaceton… Show more

“…We utilise TiO 2 as a high-temperature adhesion layer for ultra-thin metal electrodes prepared by an optimised process that has been originally used for the fabrication of ferroelectric thin-films [44,45]. A p-doped Si wafer is used and wet-oxidised to form a 450 nm thick SiO 2 layer.…”

Transfer-free graphene passivation of sub 100 nm thin Pt and Pt–Cu electrodes for memristive devices

“…We utilise TiO 2 as a high-temperature adhesion layer for ultra-thin metal electrodes prepared by an optimised process that has been originally used for the fabrication of ferroelectric thin-films [44,45]. A p-doped Si wafer is used and wet-oxidised to form a 450 nm thick SiO 2 layer.…”

Transfer-free graphene passivation of sub 100 nm thin Pt and Pt–Cu electrodes for memristive devices

Simple Alkoxide Based Precursor Systems

Mixed Metallo-organic Precursor Systems