Научная статья на тему 'INFLUENCE OF SOLVENT ON THE REACTION OF VINYL ACETYL WITH DIPHENYLA-MINE'

INFLUENCE OF SOLVENT ON THE REACTION OF VINYL ACETYL WITH DIPHENYLA-MINE Текст научной статьи по специальности «Химические науки»

CC BY
9
3
i Надоели баннеры? Вы всегда можете отключить рекламу.
Ключевые слова
Definilamine / solvent nature / vinylacetylene / N-(but-2-yn-1-yl)-N-phenylaniline / DMSO / secondary amine / IR / DMSO / Дефиниламин / природа растворителя / винилацетилен / N-(бут-2-ин-1-ил)-N-фениланилин / ДМСО / вторичный амин

Аннотация научной статьи по химическим наукам, автор научной работы — Ekhtiyor Atoev, Jabbor Jumaev, Dilsora Juraeva

In the article, the coupling reaction with diphenylamine and vinylacetylene in the presence of various solvents was studied. The reaction of the nature of the solvent to the productivity of the product was studied. Based on the experi-ments conducted, based on the solvents, DMSO was found to be the best solvent for the research reaction. The deriva-tive of N-(but-2-yn-1-yl)-N-phenylaniline was analyzed by IR spectroscopy.

i Надоели баннеры? Вы всегда можете отключить рекламу.
iНе можете найти то, что вам нужно? Попробуйте сервис подбора литературы.
i Надоели баннеры? Вы всегда можете отключить рекламу.

ВЛИЯНИЕ РАСТВОРИТЕЛЯ НА РЕАКЦИЮ ВИНИЛАЦЕТИЛА С ДИФЕНИЛАМИНОМ

В статье изучена реакция сочетания с дифениламином и винилацетиленом в присутствии различных растворителей. Изучена реакция природы растворителя на продуктивность продукта. На основании проведенных экспериментов, исходя из растворителей, лучшим растворителем для исследовательской реакции оказался ДМСО. Производное N-(бут-2-ин-1-ил)-N-фениланилина анализировали методом ИК-спектроскопии.

Текст научной работы на тему «INFLUENCE OF SOLVENT ON THE REACTION OF VINYL ACETYL WITH DIPHENYLA-MINE»

ORGANIC CHEMISTRY

INFLUENCE OF SOLVENT ON THE REACTION OF VINYL ACETYL WITH DIPHENYLAMINE

Ekhtiyor Atoev

Ph.D. chem. Sciences, Associate Professor, Bukhara Engineering and Technology Institute, Republic of Uzbekistan, Bukhara E-mail: [email protected]

Jabbor Jumaev

Associate Professor, Department of Chemistry, Bukhara Engineering and Technology Institute, Republic of Uzbekistan, Bukhara E-mail: _ [email protected]

Dilsora Juraeva

Doctoral student, Bukhara Engineering and Technology Institute, Republic of Uzbekistan, Bukhara

ВЛИЯНИЕ РАСТВОРИТЕЛЯ НА РЕАКЦИЮ ВИНИЛАЦЕТИЛА С ДИФЕНИЛАМИНОМ

Атоев Эхтиёр Худоёрович

канд. хим. наук, доцент Бухарского инженерно-технологического института, Республика Узбекистан, г. Бухара E-mail: [email protected]

Жумаев Жаббор Хамрокулович

доцент кафедры химии Бухарского инженерно-технологического института, Республика Узбекистан, г Бухара Е-mail: _ [email protected]

Жураева Дилсора Шодмоновна

докторант

Бухарского инженерно-технологического института, Республика Узбекистан, г. Бухара

ABSTRACT

In the article, the coupling reaction with diphenylamine and vinylacetylene in the presence of various solvents was studied. The reaction of the nature of the solvent to the productivity of the product was studied. Based on the experiments conducted, based on the solvents, DMSO was found to be the best solvent for the research reaction. The derivative of N-(but-2-yn-1-yl)-N-phenylaniline was analyzed by IR spectroscopy.

АННОТАЦИЯ

В статье изучена реакция сочетания с дифениламином и винилацетиленом в присутствии различных растворителей. Изучена реакция природы растворителя на продуктивность продукта. На основании проведенных экспериментов, исходя из растворителей, лучшим растворителем для исследовательской реакции оказался ДМСО. Производное ^(бут-2-ин-1-ил)-Ы-фениланилина анализировали методом ИК-спектроскопии.

Keywords: Definilamine, solvent nature, vinylacetylene, N-(but-2-yn-1-yl)-N-phenylaniline, DMSO, secondary amine, IR, DMSO.

Ключевые слова: Дефиниламин, природа растворителя, винилацетилен, ^(бут-2-ин-1-ил)-Ы-фениланилин, ДМСО, вторичный амин.

Библиографическое описание: Atoev E, Jumaev J, Juraeva D. INFLUENCE OF SOLVENT ON THE REACTION OF VINYL ACETYL WITH DIPHENYLAMINE // Universum: химия и биология : электрон. научн. журн. 2024. 7(121). URL: https://7universum.com/ru/nature/archive/item/17903

Introduction

Secondary amines combine with vinylacetylene when heated in aqueous solution (i.e., under pressure) in the 1,4 state to form allene amines, which are converted to acetylenic amines when heated with excess amine for a long time or under the influence of alcoholates [1]. Vi-nylacetylene is currently obtained by dimerization of acetylene. Diphenylamine is a secondary aromatic amine. In recent studies [2], its derivatives have been studied for their adsorption capacity in order to purify wastewater containing heavy metals such as cadmium, lead, and chromium. In other studies [3], its impact on the environment was studied. Diphenylamine and its derivatives are often used as stabilizers in nitrocellulose-

containing explosives and propellants, as antioxidants in the perfumery and rubber and elastomer industries. Based on this, the interaction study of acetylene with these two compounds and the effect of the solvent affecting this process was taken as a basis. In a number of studies [4,5] the interaction of vinylacetylene with various substances was studied.

Purpose of the study:

The study of the nature of solvents' influence on the synthesis of N-(but-2-yn-1-yl)-N-phenylaniline. The reaction can be expressed as follows. The reaction of vi-nylacetylene addition to secondary amines and the presence of trivalent derivatives have been determined [1].

r^T

-NH-

+

DSMO

but-l-en-3-yne

diphenylamine

CH,

-CH,

JV-(but-2-yn-1 -yl)-iV-phenylaniline

Materials and research methods

Organic solvents and substances used in the experimental studies were purchased and purified according to conventional methods. The physico-chemical constants of the used solvents were consistent with literature data.

Copper(I) chloride - CuCl, white (light green), powdery substance, analytical grade label. It was used as a catalyst for the production of vinyl acetylene.

Ammonium chloride - NH4Q, white powdery substance, analytical grade label. Vinylacetylene was used as a catalyst.

Dimethyl sulfoxide (DMSO) - (C^SO, a colorless liquid, was distilled before use and had the following parameters: Tboil = 190 oC, = 1,11 g/sm3,

,20 _

1,48.

Dimethylformamide (DMF) - НСОN(СНз)2, colorless liquid, was distilled before use and had the following parameters: Tboil=155 oC, = 0,950 g/sm3,

20

1,43.

Acetone (C3H6O) is a colorless volatile liquid with a characteristic pungent odor, which was removed before use and had the following parameters. Tboil=55,9 oC, df° = 0,78 g/sm3, nf = 1,353.

Ethyl alcohol (C2H5OH) is a colorless volatile liquid with a specific pungent odor, Tboil. =78,2 oC, d|° = 0,79 g/sm3, n^0 = 1,36.

Determination of the composition of the synthesized substances by the IR-spectroscopy method

Infrared spectroscoria (IR) - the IR spectra of synthesized thermo-stabilizers containing calcium, copper, and zinc were recorded on the spectrometer "IR Tracer-100" (SHIMADZU CORP., Japan, 2017). The high sensitivity of the spectrometer (noise ratio 60,000:1) allows to analyze the amount of waves in different samples, despite the low intensity of the bands in the spectrum, the scale of wave numbers is 4000^450 cm-1. The interferometer performance optimization system, combined with internal self-diagnosis and built-in automatic drying device, significantly increases the ease of use, and also ensures the long-term stability of the device. The presence of a high-speed scanning mode (20 spectra per second) allows observation reactions lasting several seconds.

Results and discussion

4.225 g of diphenylamine was weighed on an analytical balance and dissolved separately in 50 ml of solvent (see Table 1). Then, until a homogeneous system

d

d

was formed, it was heated to 80 °C in a flask with a reflux condenser. Vinyl acetylene gas was introduced into the resulting solution. The part not affected by the circulation was retransmitted. The procedure was carried out with vinyl acetylene for 4 hours. The result was N-(but-2-yn-1-yl)-N-phenylaniline. The product was extracted from the reaction system with diethyl ether and dried with calcium oxide.

Before drying, the substance was crushed and placed in a cup. In a vacuum desiccator, the product was covered with a filter paper secured with an elastic band, after which it was placed in a desiccator, the pressure of which was reduced to 5-15 mm Hg using a water stream when cleaning the vacuum cleaner, the desiccator was placed in a special protective metal mesh.

Table 1.

Effect of solvent on the yield of N-(but-2-yn-1-yl)-N-phenylamhne

№ Solvent Solvent dipole moment, D Product yield, %

1 Water 1,854 38,8

2 C2H5OH 1,69 32,4

3 C6H6 0 7

4 DMF 3,82 49,6

5 DMSO 3,96 54,2

6 Acetone 2,7 41,7

7 Solvent free - 3

The reaction yield is 3% without the presence of a solvent. Under similar conditions, the product yield was 49.6% in the presence of DMSO solvent. The dependence of the dipole moment on the nature of the solvent has been studied. At the same time, the yield of the product in the presence of H2O was 38.8%. Among the selected solvents, DMSO turned out to be more active than

other solvents. A higher dipole moment of the solvent leads to a higher yield of the product. As the dipole moment of the solvent increased, the yield of C6H6<C2H5OH<H2O<CH3COCH3<DMF<DMSO increased.

Figure 1. IR spectrum of N-(but-2-in-1-yl)-N-phenylaniline

Aromatic amines exhibit strong C-N stretching absorption in the region 1342-1266 cm-1. Absorption occurs at higher frequencies (shorter wavelengths) than the corresponding absorption of aliphatic amines because the CN bond strength constant increases with resonance with the ring. This means the product has been created.

Conclusion

The effect of the solvent on the addition of vinyl acetyl to diphenylamine was studied. Among the selected solvents, DMSO had the best product yield. As a result of the analysis of the experiments, it was established that DMSO is an important solvent for the addition of vinyl

acetyl to diphenylamine, and favorable conditions for spectroscopy, the resulting substance can be called N-

the process are as follows: temperature 70 °C, reaction (but-2-yn-1-yl)-N-phenylaniline.

time 4 hours. According to previous studies [1] and IR

References:

1. Engelhardt, V.A. (1956). Allenic and Acetylenic Amines from Vinylacetylene. Journal of the American Chemical Society, 78(1), 107-109.

2. Yimer M. et al. Adsorptive removal of heavy metals from wastewater using Cobalt-diphenylamine (Co-DPA) complex //BMC chemistry. - 2024. - Т. 18. - №. 1. - С. 1-15.

3. Drzyzga O. Diphenylamine and derivatives in the environment: a review //Chemosphere. - 2003. - Т. 53. - №. 8. -С. 809-818.

4. Жумаев Ж.Х., Шарипова Н.У. Влияние растворителей на процесс взаимодействия морфолина с винилацети-леном //Universum: химия и биология. - 2020. - №. 11-2. - С. 4-7.

5. Jumayev J. et al. Effect of catalyst nature and temperature on the addition of vinylacetylene to piperidine //scientific aspects and trends in the field of scientific research. - 2023. - Т. 1. - №. 8. - С. 288-290.

6. Жумаев Ж.Х., Ахмедов В., Шарипова Н.У. Влияние природы и количества катализатора при синтезе морфо-линовых ненасыщенных продуктов при участии винилацетилена //Universum: химия и биология. - 2021. -№. 2. - С. 58-61.

7. Ахмедов В.Н., Олимов Б.Б. Способ получения виниловых эфиров на основе винилацетилена //Gaydar Aliyevning. - 2020. - Т. 97.

i Надоели баннеры? Вы всегда можете отключить рекламу.