Microplotter printing of planar solid electrolytes in the CeO2–Y2O3 system

“…In this work, as a preliminary stage of synthesis (formation of the embryonic phase), the programmed coprecipitation of nickel and molybdenum hydroxides was carried out; the thus obtained disperse system was further subjected to hydrothermal treatment. The method of programmed coprecipitation, in comparison with the classical technique, makes it possible to carry out an automated synthesis process with a high degree of reproducibility, and also makes it possible to vary the parameters of the deposition process over a wider range [43,44].…”

Formation of NiMoO4 Anisotropic Nanostructures under Hydrothermal Conditions

“…In this work, as a preliminary stage of synthesis (formation of the embryonic phase), the programmed coprecipitation of nickel and molybdenum hydroxides was carried out; the thus obtained disperse system was further subjected to hydrothermal treatment. The method of programmed coprecipitation, in comparison with the classical technique, makes it possible to carry out an automated synthesis process with a high degree of reproducibility, and also makes it possible to vary the parameters of the deposition process over a wider range [43,44].…”

Formation of NiMoO4 Anisotropic Nanostructures under Hydrothermal Conditions

“…Recently, we introduced a programmed co-precipitation method for efficient control over the mentioned parameters. 59,60 The co-precipitation method enables automatization of the protocols of synthesis of nanomaterials of various chemical compositions and substantially increases its speed. Here, we study the synthesis and sensing performance of aluminum-doped zinc oxide towards different alcohols, homologs, and isomers in the mixture with air.…”

“…Recently, we introduced a programmed co-precipitation method for efficient control over the mentioned parameters. 59,60 The co-precipitation method enables automatization of the protocols of synthesis of nanomaterials of various chemical compositions and substantially increases its speed.…”

Quantum of selectivity testing: detection of isomers and close homologs using an AZO based e-nose without a prior training

“…At the same time, the use of additive manufacturing methods for the fabrication of ceramic materials can significantly improve reproducibility, promote miniaturization (particularly in the context of µ-SOFC [24,25]) and reduce the number of production stages in the automated formation of functional coatings of the desired geometry. Currently, a number of printing technologies are used to produce planar components for alternative energy devices: inkjet printing [26][27][28][29], aerosol printing [30][31][32], screen printing [33][34][35][36], microplotter printing [37][38][39] and microextrusion printing [40][41][42][43][44]. It is worth noting the microextrusion printing method separately due to it having significantly less stringent requirements for the viscosity level of the ink used (compared, for example, with classical inkjet printing), as well as an advantage when forming thick films (the ability to quickly achieve the desired coating thickness when one or a few layers are applied) of the required geometry.…”

Microextrusion Printing of Multilayer Hierarchically Organized Planar Nanostructures Based on NiO, (CeO2)0.8(Sm2O3)0.2 and La0.6Sr0.4Co0.2Fe0.8O3−δ