RU2142846C1 - Alumina-based porous sorbent - Google Patents

Abstract

FIELD: medicinal sorbents. SUBSTANCE: invention provides various-destination sorbent based on macroporous-structure meso-aluminum oxide and modifying components: up to 10 wt % lithium ions and up to 10 wt % polymethylsiloxane. The latter are uniformly spread over sorbent granule. Loose density of sorbent varies from 0.7 to 1.15 g/cu.cm depending on granulometric composition of original aluminum oxide and concentration of modifying components. EFFECT: increased mechanical strength and adsorption capacity for low-molecular toxins and, in addition, acquired psychotropic properties. 2 cl, 1 tbl, 9 ex

Description

 The invention relates to the field of porous materials, adsorbents for medical purposes, cosmetology, carriers for enzymes, cells, biologically active substances, drugs.

 Sorbents based on alumina, which in itself is a sorbent, have found wide application in medicine. This is a carbon mineral sorbent, which is alumina modified with carbon distributed evenly over the particle diameter in the porous matrix space. Meso-, macroporous structure, hydrophilic-hydrophobic nature of the centers on the surface provide good adsorption properties with respect to medium and high molecular weight compounds, microbial cells. Sorbent has found wide application in medicine as hemo-, enterosorbent and application material. However, its technology is energy-intensive and does not ensure the complete absence of dust particles in the finished product (Av.St.SSSR N 988324, 1983, Rachkovskaya LN Carbon-mineral sorbents for medicine. Novosibirsk. - Publishing house of the RAAS. - 1996. - 235 with.).

 The closest in its characteristics is a sorbent with improved strength and organoleptic properties (white sorbent) based on aluminum oxide and a modifying component, the organosilicon compound polymethylsiloxane (PMS), which is evenly distributed over the sorbent granule in the form of fragments of a certain size that create hydrophobic centers on the surface matrices. Sorbent has good sorption properties, to a lesser extent than carbon mineral sorbent, injures blood elements. Due to its improved organoleptic properties, the sorbent is characterized by high consumer qualities as a detoxifying agent without a specific focus (RF Patent N 2094116, Bull. N 2, 1997).

 The invention solves the problem of creating a high-strength sorbent based on aluminum oxide and an organosilicon compound polymethylsiloxane with imparting to the sorbent, along with its detoxifying properties, specific properties of an antidepressant nature, calming, depriving effect by introducing psycholeptic drugs (normotimics) - lithium compounds and ensuring its prolonged action.

The problem is solved by modifying the surface of aluminum oxide with a lithium-containing compound and a silicon-containing polymer - polymethylsiloxane (PMS). After a special short-term low-temperature treatment, these are granules, white powder with a specific surface area of 100 to 350 m ² / g. Modifying organosilicon polymer - polymethylsiloxane - up to 10 wt.%. The lithium content in the modifying lithium-containing compound is up to 10 wt.%.

 The surface of the sorbent modified with lithium-containing and silicon-containing compounds based on aluminum oxide with a meso-, macroporous structure contains a mosaic of hydrophilic sites due to the matrix and lithium ions and hydrophobic sites due to the silicon-containing component, which creates the conditions for multipoint binding of biological medium- and high molecular weight structures, microbial cells providing a detoxifying effect. Given the meso- and macroporous structure and the soft chemical nature of acidic and basic centers on the surface, the action of lithium is prolonged as a calming and depriving effect factor that can even out mood, which is extremely important for prevention and recovery, as well as for treating an ever-increasing patient population in conditions of endoecological stress.

 The proposed sorbent can be used as a hemosorbent, enterosorbent, application material in medicine, cosmetology. Due to its good organoleptic properties and specific compositional characteristics, it can be used as an integral part of complex medical products, for example, application sterile wipes, cosmetic products to eliminate skin defects as the basis for therapeutic creams. It can be used as a carrier for biologically active substances, enzymes, cells, contributing to their prolonged action. Sorbent can be used to solve environmental problems, for example, for the treatment of water, food.

 The proposed material is obtained by joint or sequential modification of alumina with a granule size of up to 2 mm with a lithium-containing compound (carbonate, hydroxybutyrate, citrate and other compounds) and a silicon-containing compound - polymethylsiloxane from an aqueous or organic solution with further low-temperature processing.

 The production technology allows one to obtain a sorbent with increased mechanical strength, which was judged by the decrease in the amount of water when washing the sorbent, with increased sorption activity with respect to low molecular weight toxins, which was judged by the sorption of methylene blue dye and Congo dye.

 The invention is illustrated by examples and table.

Example 1. A white sorbent, which is a mechanically strong alumina with a grain size of 0.1-0.4 mm, modified with a lithium-containing compound, with a lithium content of 0.1 wt.% And a silicon-containing polymer polymethylsiloxane in an amount of 1.0 wt.% , with a specific surface area of 350 m ² / g, a volume of meso-, macropores with a radius of up to 1000A - 0.38 cm ³ / g. The bulk density of the sorbent 0.89 g / cm ³ .

 The chloroform wash from the sorbent is spectrally pure. The aqueous extract from the sorbent has a pH close to neutral (7.7). When in contact with water, dust particles are not released. Light opalescence disappears when washing with water in a sorbent: water ratio of 1: 8 (according to the prototype, the ratio is 1: 10).

 The sorption capacity with respect to the dye methylene blue (a marker of low molecular weight toxins) is 28 mg / g of sorbent (the sorbent of the prototype has a capacity of methylene blue of 0.3 mg / g of sorbent). The capacity in relation to the dye of the Congo is 1.5 mg / g of sorbent.

Example 2. The white sorbent, which is a mechanically strong alumina with a grain size of 0.1-0.4 mm, modified 0.2 wt.% Lithium and 2.5 wt.% Polymethylsiloxane, with a specific surface area of 304 m ² / g , the volume of meso-, macropores with a radius of up to 1000A is 0.34 cm ³ / g. The bulk density of 0.85 cm ³ / g The chloroform wash from the sorbent is spectrally pure. The pH of the aqueous extract is 7.8. When in contact with water, dust particles are not released. Light opalescence disappears when washing with water at a sorbent: water ratio of 1: 5.

 Sorption capacity in relation to dye methylene blue 35 mg / g of sorbent. The capacity in relation to the dye Congo 3.4 mg / g of sorbent.

Example 3. The sorbent is white, representing a mechanically strong alumina with a particle size of 0.1-0.2 mm, modified 4.1 wt.% Lithium, 5.6 wt.% Polymer polymethylsiloxane, with a specific surface area of 180 m ² / g, the volume of meso-, macropores 0.285 cm ³ / g. Bulk density 1.15 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH value of extracts from water is 7.8. Dust particles do not come out in contact with water. Light opalescence disappears when washing with water in a ratio of 1: 3.

 The sorption capacity in relation to the dye methylene blue is 37.1 mg / g of sorbent, the capacity in the Congo is 3.8 mg / g of sorbent.

Example 4. A sorbent of white color, representing a mechanically strong alumina with a rounded granule size of 0.4-1 mm, a modified 1.2 wt.% Lithium and 3.2 wt.% Polymer, with a specific surface area of 263 m ² / g, volume then 0.289 cm ³ / g. The bulk density of 0.70 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH of the aqueous extract is 7.8. Dust particles do not come out in contact with water. Light opalescence disappears when washing with water at a sorbent: water ratio of 1: 4.

 Sorption activity in relation to methylene blue is 30.4 mg / g of sorbent, in the Congo 2.7 mg / g of sorbent.

Example 5. The sorbent is white, representing a mechanically strong alumina with a particle size of 0.1-0.2 mm, a modified 5 wt.% Lithium and 10 wt. % polymethylsiloxane, with a specific surface area of 135 m ² / g, pore volume of 0.210 cm ³ / g The bulk density of the sorbent is 1.10 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH value of the extract is close to 7.8. Dust particles do not come out in contact with water. Light opalescence disappears when washing with water at a sorbent: water ratio of 1: 2.

 Sorption activity in relation to methylene blue is 35.8 mg / g of sorbent, in the Congo 2.2 mg / g of sorbent.

Example 6. The sorbent is white, representing a mechanically strong alumina with a particle size of 0.1-0.2 mm, a modified 10.0 wt.% Lithium and 10.0 wt.% Polymethylsiloxane, with a specific surface area of 100 m ² / g pore volume 0.190 cm ³ / g Bulk weight 1.13 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH of the hood is 7.6. Dust particles do not come out in contact with water. Light opalescence disappears when washing with water at a sorbent: water ratio of 1: 8.

 Sorption activity in relation to methylene blue is 21.5 mg / g of sorbent, in the Congo 1.8 mg / g of sorbent.

Example 7. A sorbent of white color, representing a mechanically strong alumina with a grain size of 0.1-0.4 mm, a modified 0.05 wt.% Lithium, 4.1 wt. % polymer of polymethylsiloxane with a specific surface area of 275 m ² / g, pore volume 0.365 cm ³ / g Bulk weight 0.91 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH of the hood is 8.3. Dust particles do not emit upon contact with water, slight opalescence disappears when washing with water at a sorbent: water ratio of 1: 2.

 Sorption activity for methylene blue is 15.4 mg / g of sorbent, with respect to Congo 0.7 mg / g of sorbent.

Example 8. The sorbent is white in color, representing a mechanically strong alumina with a grain size of 0.1-0.4 mm, a modified 13.5 wt.% Lithium and 10.0 wt. % polymer of polymethylsiloxane with a specific surface area of 106 m ² / g, with a pore volume of 0.186 cm ³ / g Bulk weight 0.92 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH of the hood is 8.3. Dust particles do not emit upon contact with water, slight opalescence disappears when washing with water at a sorbent: water ratio of 1: 9.

 Sorption activity for methylene blue 14.7 mg / g of sorbent, in relation to Congo 0.5 mg / g of sorbent.

Example 9 (prototype). White sorbent, which is a mechanically strong alumina with a grain size of 0.1-0.4 mm, a modified 10.7 wt.% Polymer of polymethylsiloxane with a specific surface area of 213 m ² / g, with a pore volume of 0.300 cm ³ / g. Bulk weight 0.87 g / cm ³ . The chloroform wash from the sorbent is spectrally pure. The pH of the extract is 6.8. Dust particles do not emit upon contact with water, slight opalescence disappears when washing with water at a sorbent: water ratio of 1:10.

 Sorption activity for methylene blue 0.3 mg / g of sorbent, in relation to Congo 0.4 mg / g of sorbent.

 As can be seen from the examples and the table, in which the example and the prototype are also given (N 9), a new, white colored sorption material with a meso-, macroporous structure, with a hydrophilic-hydrophobic nature of the surface, with high strength and sorption characteristics based on porous is proposed alumina modified with lithium and silicon compounds. The new sorbent is characterized by increased strength, as evidenced by a decrease in flushing water, and by high adsorption properties with respect to markers of low molecular weight toxins (dyes).

 From examples 7 and 8 with prohibitive values of the modifying components for both lithium and polymer polymethylsiloxane, it is seen that both a decrease and an increase in the components lead to a deterioration in the characteristics of the sorbents.

Claims (2)

 1. A porous sorbent based on aluminum oxide containing meso- and macropores and a modifying organosilicon component is a polymer of polymethylsiloxane, characterized in that the modifying component is a lithium-containing compound with its content in the sorbent up to 10 wt.%, While the content of the organosilicon compound - polymethylsiloxane - is not higher than 10 wt.%. 2. The sorbent according to claim 1, characterized in that the bulk density of the sorbent is 0.7 - 1.15 g / cm ³ depending on the particle size distribution.

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