RU2757656C1 - Method for obtaining a coating from single-phase nickel titanate on a corundum substrate - Google Patents

Abstract

FIELD: semiconductor industry; optical systems; catalyst production.

SUBSTANCE: invention relates to a method for obtaining a coating from a single-phase nickel titanate on a corundum substrate and can be used in the semiconductor industry, optical systems and catalysts. The corundum substrate is immersed in a 5% solution of heterometallic dimethylglyoximate in dimethyl sulfoxide, and the heterometallic dimethylglyoximate contains, wt. %: 14.53 nickel and 11.8 titanium. Then air drying is carried out, burning at a temperature of 350-500°C to remove the organic part and subsequent burning at 800°C for 2 hours to form a single-phase nickel titanate.

EFFECT: uniform coating of single-phase nickel titanate is provided without admixtures of phases related to titanium oxide, in the form of rutile or brookite, and nickel oxide.

1 cl, 2 ex

Description

Nickel titanate is used as a tribological coating to reduce friction and wear at high temperatures. Solid lubricants that can minimize friction and wear over a wide operating range are essential to minimize replacement and logistics costs for modern engines. Nanodispersed titanates of transition metals are widely known as magnetic and semiconducting materials with a wide range of applications in the semiconductor industry, optical systems, and catalysts.

The synthesis of nickel titanate (NiTiO ₃ ) is carried out by a variety of known methods using organic derivatives of titanium, for example, its oxalate complexes or tetrabutoxytitanium. The synthesis of NiTiO _{3 by} solid-phase interaction is complicated by the fact that at low temperatures (T <1000 ° C), along with the formed nickel titanate, nickel oxide (NiO) and titanium dioxide (TiO ₂ ) of rutile and anatase modifications remain in the system. High temperatures lead to an uncontrolled increase in the size of particles with different morphologies, as a result of which the particle sizes of the obtained product are inhomogeneous and exceed the particle sizes of the initial titanium dioxide. [Nickel titanate microtubes constructed by nearly spherical nanoparticles: Preparation, characterization and properties / Materials Research Bulletin - 2009 - 44 - p. 1797-1801 / Yonghong Ni, Xinghong Wang, Jianming Hong. Effects of Ag-doped NiTiO3 on photoreduction ofmethylene blue under UV and visible light irradiation / Journal of Alloys and Compounds - 2009 - 479 - p. 785-790 / Yi-Jing Lina, Yen-Hwei Chang, Guo-Ju Chen, Yee-Shin Chang, Yee-Cheng Chang. Structural characterization of NiTiO3 nanopowders prepared by stearic acid gel method / Materials Letters - 2008 - 62 - p. 3679-3681 / MS Sadjadi, K. Zare, S. Khanahmadzadeh, M. Enhessari.].

Closest to the proposed invention is the patent of the Russian Federation No. 2457182 A method of obtaining nanodispersed nickel titanate authors V.V. Viktorov, V.E. Gladkov, A.S. Serikova. A method for producing nanodispersed nickel titanate includes preparing an equimolar mixture of nanodispersed titanium dioxide with a dehydrated nickel salt, then heating this mixture to the synthesis temperature of nickel titanate and holding at this temperature. Titanium dioxide is titanium dioxide of anatase modification, obtained by chloride technology, with the temperature of the beginning of the polymorphic transformation of anatase-rutile higher than the synthesis temperature of nickel titanate. Nickel nitrate is used as the nickel salt, and the equimolar mixture is kept in the temperature range 820-880 ° C for at least 1 hour. The disadvantage of this method is the need for long-term energy-intensive heating of the mixture and the impossibility of obtaining high-quality coatings by this method.

The technical object of the present invention is to obtain a coating from a heterometallic (nickel, titanium) containing organic compound with a nickel to titanium ratio of 1, during the heat treatment of which nickel titanate is formed. The coating should be uniform, single-phase nickel titanate, without admixtures of phases related to titanium oxide (rutile or brookite) and nickel oxide.

The technical result is achieved by the fact that in the method of obtaining a nickel titanate coating, by applying a solution to the substrate surface prepared by etching the substrate in acids, according to the invention, heterometallic (nickel, titanium) dimethylglyoximate with a nickel content of 14 is used as a source of nickel and titanium compounds. , 53% of the mass. and titanium - 11.8% by weight, which is applied to the surface of corundum ceramics by immersion in a 5% solution of heterometallic (nickel, titanium) dimethylglyoximate in dimethyl sulfoxide, followed by drying in air and firing at a temperature of 350-5000 ° C to remove the organic part and subsequent firing at 8000 ° C for 2 hours to form single-phase nickel titanate.

Dimethylglyoxime forms stable complex compounds with transition metal ions with the formation of 5 and 6-membered rings, which, according to Chugaev's theory of the stability of coordination compounds, are very stable. So, nickel dimethylglyoximate is able to pass on heating from a solid to a gaseous state (sublimate) without changing the composition with deposition on a cooled surface. It is known [Chandra, R., & Singh, R.R. (1992). Reaction of Titanium Tetrachloride with Nickel (II) Bischelates of Some Oximes. Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry, 22 (2-3), 311-320.] That nickel dimethylglyoximates can react with Lewis acids, in particular with titanium tetrachloride, to form heterometallic compounds. In this case, the resulting heterometallic coordination compounds are able to dissolve in organic solvents such as dimethylformamide, dimethyl sulfoxide, acetonitrile. A solution of heterometallic (nickel, titanium) dimethylglyoxime is applied to a previously prepared surface by dipping the substrate into a solution, followed by firing, accompanied by pyrolysis of the organic part (dimethylglyoxime) and the formation of a nickel titanate coating with subsequent firing at 800 ° C.

Example 1.

5 g of the previously synthesized heterometallic (nickel, titanium) dimethylglyoxime was dissolved in dimethyl sulfoxide at 150 ° C, then the corundum substrate was immersed in a hot solution, after which the coating was dried at 110 ° C in an oven. The prepared coating on a corundum substrate was placed in a muffle furnace and a two-stage firing was carried out. It was heated to 500 ° C at a heating rate of 10 K / min, held for 60 min, then the temperature was raised to 800 ° C and held for 120 min, after which it was cooled to room temperature. According to XRD data, the resulting coating is characterized by a perovskite structure and corresponds to nickel titanate, according to the JCPDS database. No impurities of phases related to nickel and titanium oxides were found.

Example 2.

5 g of the previously synthesized heterometallic (nickel, titanium) dimethylglyoxime was dissolved in dimethyl sulfoxide at 150 ° C, then the corundum substrate was immersed in a hot solution, after which the coating was dried at 110 ° C in an oven. The prepared coating on a corundum substrate was placed in a muffle furnace and a two-stage firing was carried out. It was heated to 350 ° C with a heating rate of 10 K / min, held for 120 min, then the temperature was raised to 800 ° C and held for 60 min, after which it was cooled to room temperature. According to XRD data, the resulting coating is characterized by a perovskite structure and belongs to nickel titanate; an insignificant impurity of the rutile phase was found, the content of which does not exceed 5 wt%.

Thus, the method proposed in the present invention for producing nickel titanate coatings is simple to design and saves energy resources, as well as using simpler and cheaper equipment to obtain the coating: a muffle furnace instead of a chamber furnace with silite heaters.

Claims (1)

A method of obtaining a coating of single-phase nickel titanate on a corundum substrate, characterized in that the corundum substrate is immersed in a 5% solution of heterometallic dimethylglyoximate in dimethylsulfoxide, and the heterometallic dimethylglyoxime contains 14.53 wt. % nickel and 11.8 wt. % titanium, then air drying is carried out, firing at a temperature of 350-500 ° C to remove the organic part and subsequent firing at 800 ° C for 2 hours to form single-phase nickel titanate.