Show metadata Hide metadata

(19)

(11)

2 669 563

(13)

(51)

IPC

C07C277/00(2006-01-01)

C07C277/08(2006-01-01)

C07C279/02(2006-01-01)

C07C279/22(2006-01-01)

C08F20/60(2006-01-01)

C08F120/60(2006-01-01)

C08F222/38(2006-01-01)

(21) (22)

Application

2016139239, 2016-10-06

(24)

Start date

2016-10-06

(22)

Actual filing date

2016-10-06

(45)

Published

2018-10-12

(72)

Inventor

Sivov Nikolaj AleksandrovichPopova Nadezhda IvanovnaMenyashev Marat RavilevichKleshcheva Natalya AfanasevnaGerasin Viktor Anatolevich

(73)

Holder

Federalnoe Gosudarstvennoe Byudzhetnoe Uchrezhdenie Nauki Ordena Trudovogo Krasnogo Znameni Institut Neftekhimicheskogo Sinteza Im. A.V. Topchieva Rossijskoj Akademii Nauk Ran)

METHODS OF PRODUCING METHACRYLOYLGUANIDINE SALT, POLYMER AND COPOLYMER OF METHACRYLOYLGUANIDINE SALT AND PRODUCED POLYMER AND COPOLYMER Russian patent published in 2018 - IPC C07C277/00 C07C277/08 C07C279/02 C07C279/22 C08F20/60 C08F120/60 C08F222/38

Abstract RU 2669563 C2

FIELD: chemistry.

SUBSTANCE: invention relates to the chemistry of guanidine-containing low-molecular and high-molecular compounds and can find use in the preparation of drugs that can suppress the growth of bacteria. Specifically, the invention relates to a process for the preparation of a salt of methacryloylguanidine, which involves the preparation of methacryloylguanidine by the reaction of guanidine and methyl methacrylate in an organic solvent and the reaction of methacryloylguanidine with an acid. Process is characterized in that as an organic solvent, acetonitrile is used, and as an acid, acetic, trifluoroacetic or methacrylic acid. Invention also relates to processes for the preparation of a polymer and a copolymer of a methacryloylguanidine salt, a polymer and a methacryloylguanidine salt copolymer prepared by said methods.

EFFECT: invention can find application in the preparation of drugs that can suppress the growth of bacteria.

8 cl, 13 dwg, 29 ex, 1 tbl

Similar patents RU2669563C2

Title	Year	Author	Number
METHOD OF PRODUCING ACRYLONITRILE COPOLYMERS IN A SOLUTION	2020	Chernikova Elena Vyacheslavovna Gervald Aleksandr Yurevich Prokopov Nikolaj Ivanovich Toms Roman Vladimirovich Plutalova Anna Valerevna	RU2734241C1
METHOD FOR PREPARING WATER-SOLUBLE HOMOPOLYMERS AND COPOLYMERS OF VINYLAMINE	2002	Panarin E.F. Santurjan Ju.G. Gavrilova I.I. Nesterova N.A.	RU2243977C2
METHOD OF PRODUCING CARBOHYDRATE-CONTAINING POLYMERS	2012	Shul'Tsev Aleksej Leonidovich	RU2538211C2
METHOD OF PREPARING POLYMERS AND COPOLYMERS OF N-VINYLAMIDOSUCCINIC ACID	0	Nikolaev Anatolij Fedorovich Lavrov Nikolaj Alekseevich Bondarenko Sofya Georgievna Bondarenko Valentina Mikhajlovna	SU891689A1
METHOD OF PRODUCING COPOLYMERS OF ACRYLONITRILE IN MASS	2020	Chernikova Elena Vyacheslavovna Gervald Aleksandr Yurevich Prokopov Nikolaj Ivanovich Toms Roman Vladimirovich Plutalova Anna Valerevna	RU2734242C1
NORBORNENE AND ACRYLATE COPOLYMER, SYNTHESIS METHOD THEREOF AND METHOD OF PRODUCING NANOCOMPOSITE BASED THEREON	2010	Bykov Viktor Ivanovich Makovetskij Kirill L'Vovich Butenko Tamara Aleksandrovna Beljaev Boris Aleksandrovich Finkel'Shtejn Evgenij Shmerovich	RU2456304C2
WATER SOLUBLE POLYMERS WITH VINYL UNSATURATION, CROSS-LINKAGE THEREOF AND METHOD OF PRODUCING SAID POLYMERS	2004	Patil Prerana Maruti Kulkarni Mokhan Gopalkrishna	RU2361884C2
METHOD FOR SYNTHESIS OF ACRYLONITRILE COPOLYMERS (VERSIONS)	2012	Nifant'Ev Il'Ja Ehduardovich Shljakhtin Andrej Vladimirovich Lemenovskij Dmitrij Anatol'Evich	RU2528395C2
METHOD OF OBTAINING CROSS-LINKED HYDROPHILIC POLYMER DEMONSTRATING PROPERTIES OF SUPERABSORBENT	2011	Lozinskij Vladimir Iosifovich Zaborina Ol'Ga Evgen'Evna	RU2467017C1
FIBRE-FORMING ACRYLONITRILE COPOLYMER AND SYNTHESIS METHOD THEREOF	2009	Duflot Vladimir Robertovich Kitaeva Natal'Ja Konstantinovna Polikarpov Vladimir Vasil'Evich Kas'Janova Ekaterina Aleksandrovna Savinova Nina Semenovna	RU2422467C2

RU 2 669 563 C2

Authors

Sivov Nikolaj Aleksandrovich

Popova Nadezhda Ivanovna

Menyashev Marat Ravilevich

Kleshcheva Natalya Afanasevna

Gerasin Viktor Anatolevich

Dates

2018-10-12—Published

2016-10-06—Filed