RU2489420C1 - Method of producing ethylenediamine-n-monopropionic acid - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to methods of producing ethylenediamine carboxylic acids, specifically ethylenediamine-N-monopropionic acid, which can be used as a node for synthesis of polyfunctional ligands and as a complexing agent in analytical chemistry, biology and medicine. The method of producing ethylenediamine-N-monopropionic acid involves reacting acrylic acid with aqueous solution of a copper complex of ethylenediamine, obtained from ethylenediamine and an aqueous solution of copper (II) sulphate, wherein the acrylic acid is taken in stoichiometric ratio to ethylenediamine or with 5-10% molar excess to ethylenediamine of the stoichiometric amount and is added to the solution of the obtained complex while stirring and at temperature of 40-45°C, after which the reaction mass is heated to 60-65°C, held at said temperature for 6.0-6.5 hours, then cooled and the end product is separated by filtration. Ethylenediamine-N-monopropionic acid is obtained with output of 41.4-41.7% and melting point of 230°C (with decomposition).

EFFECT: high output.

2 cl, 3 ex, 3 dwg

Description

The invention relates to methods for producing ethylenediaminocarboxylic acids, namely ethylenediamine-N-monopropionic acid, which can be used as a nodal compound for the synthesis of polyfunctional ligands, as well as a complexing reagent in analytical chemistry, biology, and medicine.

When studying the achieved level of technology, only one mention was made of ethylenediamine-N-monopropionic acid (ethylenediamine-N-propionic acid), which is proposed as a starting product for the production of polyurethane coatings and there is no mention of a method for its preparation (US 5177141, С07С 229/16 05/01/1993).

The classical carboxyalkylation of ethylenediamine with β-chloropropionic acid in an alkaline medium is known to produce ethylenediamine-N, N, N ', N'-tetrapropionic acid (EDTP), or ethylenediamine-N, N'-dipropionic acid (EDDP). For example, it is known that during the process of carboxyalkylation of ethylenediamine with β-chloropropionic acid in the presence of sodium hydroxide at regulated temperature conditions (not higher than 85 ° C) and certain pH values of the reaction mass that vary at different stages (at the initial stage - 9, 0-11.0, after the stage of acidification - 1.5-2.0, at the stage of neutralization - 4.0-4.5) receive ethylenediamine-N, N, N ', N'-tetra-propionic acid (RU 23008448 , C07C 227/04, 2007). In another known invention, carboxyalkylation of ethylenediamine β-chloropropionic acid in the form of its calcium salt in the presence of calcium oxide is carried out, resulting in the reaction of ethylenediamine-N, N'-dipropionic acid (RU 237828, С07С 227/04, 2007). In the latter case, the carboxyalkylation process is carried out at a temperature not exceeding 85 ° C and pH values of the reaction mass 9.0-11.0, after cooling the reaction mass and its acidification with hydrochloric acid, the pH value is set at 1.0-1.5 and dihydrochloride is isolated EDDP.

As additional experimental studies have shown, by the similar interaction of ethylenediamine with β-chloropropionic acid in an alkaline medium (NaOH, Ca (OH) ₂ ) it is not possible to obtain a monosubstituted derivative of ethylenediamine. namely, ethylenediamine-N-monopropionic acid (EDMP).

There is another method for the synthesis of ethylenediaminocarboxylic acids, namely the method of saponification of the corresponding nitriles (DE 638071, 12q 6/01, 1936). However, this method is not described as a method for producing ethylenediamine-N-monopropionic acid. As is known, by the indicated method, consisting in the interaction of ethylenediamine with acrylonitrile and subsequent hydrolysis of the resulting ethylene diamide dipropionitrile, for example, ethylene diamine-N, N'-dipropionic acid dihydrochloride is synthesized (Arthur E. Martell, Stanley Chaberek, "The preparation and properties of some N-disubstituted ethylenediaminedipropionic acids. "J. Am. Chem. Sos., 1950, vol. 72, p. 5357-5361).

The proposed method for producing ethylenediamine-N-monopropionic acid is carried out by the interaction of acrylic acid with an aqueous solution of a copper complex of ethylene diamine, previously obtained from ethylene diamine and an aqueous solution of copper (II) sulfate, and at the same time, acrylic acid is taken in a stoichiometric ratio to ethylene diamine or from 5-10% th molar excess to ethylene diamine of a stoichiometric amount and is introduced with stirring into a solution of Cu (II) ethylene diamine complex having a temperature of 40-45 ° C, after which the reaction mass is heated vayut to a temperature of 60-65 ° C, kept at this temperature for 6.0-6.5 hours, then cooled and the desired product is isolated by filtration. The expected product is washed with distilled water, then with methanol and dried.

The main features of the proposed method are;

- the choice of the starting reagents of ethylenediamine, acrylic acid and an aqueous solution of copper sulfate (II) and their quantitative ratio,

- the use of a specific sequence of introducing reagents, namely the introduction of acrylic acid in Cu (II) ethylenediamine complex, previously obtained by the interaction of ethylene diamine and copper (II) sulfate in an aqueous medium,

- specific temperature conditions, both at the stage of the introduction of acrylic acid into Cu (II) ethylene diamine complex (at a temperature of 40-45 ° С), and during the main reaction (at a temperature of 60-65 ° С) and temporary modes (stirring of the reaction mixture within 6.0-6.5 hours at a temperature of 60-65 ° C).

The proposed method is carried out as follows: to an aqueous solution of copper (II) sulfate, ethylene diamine is added at room temperature, the reaction solution is heated to a temperature of 40-45 ° C, and with stirring, acrylic acid is added to the resulting copper complex of ethylene diamine, after which the reaction solution is heated to a temperature of 60-65 ° C and maintained at this temperature and stirring for 6.0-6.5 hours, then the stage of selection of the target product. Such a sequence of component loading suggests the initial formation of a Cu (II) ethylenediamine complex and further interaction of acrylic acid with the amino group of ethylenediamine coordinated with Cu (II).

In the proposed method, as in the known methods for the synthesis of ethylenediamine derivatives containing propionic groups, an ethylenediamine derivative is used as one of the starting reagents. The difference of the proposed method lies in the fact that it uses acrylic acid as another starting reagent, and in the analogues cited above - methods for producing EDDP or EDTP, β-chloropropionic acid (in the form of its sodium or calcium salt) is used.

The selection of just such starting reagents in combination with other features of the proposed method allows to obtain exactly ethylenediamine-N-monopropionic acid (EDMP), the identification of which is confirmed below by mass spectrometry, IR and ¹³ C-NMR spectroscopy and elemental analysis.

As can be seen from the examples below, acrylic acid can be used in a stoichiometric ratio to ethylenediamine (when the molar ratio of acrylic acid to ethylenediamine is 2: 1) or with a small (5-10%) molar excess of ethylene diamine from a stoichiometric amount. The examples below show how the molar ratio of the starting products affects the yield of the obtained product. The maximum yield is achieved with a 5-10% molar excess of acrylic acid relative to ethylene diamine from a stoichiometric amount.

The proposed method is carried out at certain temperature and time conditions, selected experimentally. Moreover, in the first stage, the Cu (II) complex of ethylene diamine is obtained by adding ethylene diamine to an aqueous solution of copper (II) sulfate having room temperature, then to the solution of the complex having a temperature in the range of 40-45 ° C, acrylic acid is added, followed by the reaction mass mixes when heated to 60-65 ° C and is maintained after the addition of reagents at this temperature. The mixing time of the reaction mass is 6.0-6.5 hours. Changing the temperature and time regimes in the direction of decreasing (outside the declared values) significantly reduces the yield of the target product, an increase does not increase the yield.

After cooling the reaction mass (to room temperature), a precipitated white crystalline precipitate of ethylenediamine-N-monopropionic acid was isolated by filtration. For purification, the target product is washed on the filter with cold distilled water and methanol until there are no copper cations (Cu ²⁺ ), dried by known methods.

To identify the resulting product were used: mass spectrometry method, IR and ¹³ C-NMR spectroscopy, elemental analysis data. These methods confirm the receipt by the proposed method of ethylene diamine-N-monopropionic acid.

Figure 1 below shows the mass spectrum of the compound under study, in which a peak belonging to the molecular ion 132.913 is observed, which actually corresponds to the molecular weight of ethylenediamine-N-monopropionic acid. The structure of ethylenediamine-N-monopropionic acid is also confirmed by the IR spectrum data (Fig. 2), in which absorption bands are present corresponding to the nonionized carboxyl group (1719 cm ^-1 ) and the amino group (3027 cm ^-1 ). ¹³ C-NMR spectrum of the test compound is shown in Fig. 3 and also confirm the structure of the compound corresponding to ethylenediamine-N-monopropionic acid.

Found,%: C 45.13, 45.57; H 8.98, 9.29; N 20.92, 20.73 C ₅ H ₁₂ N ₂ O ₂ . Calculated,%: C 45.44; H 9.15; N, 21.20.

Below the invention is illustrated by examples, which in no way limit the possibility of implementing this method within the claimed scope of claims.

Example 1

To a solution of 16.0 g (0.1 mol) of copper (II) sulfate in 100 cm ^{3 of} water, 13.4 cm ³ (0.2 mol) of ethylene diamine is slowly added and to the resulting solution of a complex of dark violet color having a temperature of 40 ° C, add with stirring 27.4 cm ³ (0.4 mol) of acrylic acid, which corresponds to a stoichiometric ratio (2: 1) of acrylic acid to ethylenediamine. After loading the entire amount of acid, the reaction mass is stirred at 60 ° C for 6.5 hours, after which it is cooled to room temperature. The precipitated white crystalline precipitate is filtered off and washed on the filter with cold distilled water and methanol, and dried. 9.6 g of ethylenediamine-N-monopropionic acid are obtained in a yield of 36.1%. so pl. 230 ° C (with decomposition).

Example 2

To a solution of 16.0 g (0.1 mol) of copper sulfate (II) in 100 cc of water was slowly added 13.4 cm ³ (0.2 mol) of ethylenediamine, the resulting complex solution was a dark purple color, having a temperature of 45 ° C , add 28.8 cm ³ (0.42 mol, which corresponds to a 5% molar excess of acrylic acid to ethylenediamine from the stoichiometric amount. After loading the entire amount of acid, the reaction mass is stirred at 65 ° C for 6.0 hours, after which it cooled to room temperature, the precipitated white crystalline precipitate was filtered off and washed dissolved on filter with cold distilled water and methanol and dried. 11.0 g of ethylenediamine-N-monopropionovoy acid in a yield of 41.4%. m.p. 230 ° C (with decomposition).

Example 3

To a solution of 16.0 g (0.1 mol) of copper (II) sulfate in 100 cm ^{3 of} water, 13.4 cm ³ (0.2 mol) of ethylenediamine is slowly added, to the resulting solution of a complex of dark violet color, having a temperature within 40-45 ° C, add 30.2 cm ³ (0.44 mol) of acrylic acid, which corresponds to a 10% molar excess of acrylic acid to ethylene diamine from a stoichiometric amount. After loading the entire amount of acid, the reaction mass is stirred at a temperature range of 60-65 ° C for 6.0 hours, after which it is cooled to room temperature. The precipitated white crystalline precipitate is filtered off and washed on the filter with cold distilled water and methanol, and dried. 11.1 g of ethylenediamine-N-monopropionic acid are obtained in a yield of 41.7%. so pl. 230 ° C (with decomposition).

Claims (2)

1. The method of producing ethylenediamine-N-monopropionic acid, carried out by the interaction of acrylic acid with an aqueous solution of a copper complex of ethylene diamine, previously obtained from ethylene diamine and an aqueous solution of copper (II) sulfate, characterized in that the acrylic acid is taken in a stoichiometric ratio to ethylene diamine or 5 -10% molar excess of ethylene diamine from a stoichiometric amount and introduced into the solution of the obtained complex with stirring and at a temperature of 40-45 ° C, after which the reaction mass is heated they are heated up to 60-65 ° С, kept at this temperature for 6.0-6.5 hours, then cooled and the desired product is isolated by filtration. 2. The method according to claim 1, characterized in that the selected target product is washed with cold distilled water, methanol and dried.

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