Supercritical Fluids in Chemistry | Sciact - CRIS-system of Boreskov Institute of Catalysis

Supercritical Fluids in Chemistry Review

Journal

Russian Chemical Reviews
ISSN: 0036-021X , E-ISSN: 1468-4837

Output data

Year: 2020, Volume: 89, Number: 12, Pages: 1337-1427 Pages count : 91 DOI: 10.1070/rcr4932

Tags

CATALYZED ASYMMETRIC HYDROGENATION; ELECTRON-PARAMAGNETIC-RESONANCE; REDUCED GRAPHENE OXIDE; END GROUP MODIFICATION; ONE-POT SYNTHESIS; RING-OPENING POLYMERIZATION; SOLID ACID CATALYSTS; POLYIMIDE THIN-FILMS; ENHANCED ELECTROCHEMICAL PERFORMANCE; ENCAPSULATED METAL NANOPARTICLES

Authors

Alekseev Evgenii S. ¹ , Alentiev Alexander Yu. ² , Belova Anastasia S. ³ , Bogdan Viktor I. ^1,4 , Bogdan Tatiana V. ¹ , Bystrova Aleksandra V. ^3,5 , Gafarova Elvira R. ⁶ , Golubeva Elena N. ¹ , Grebenik Ekaterina A. ⁶ , Gromov Oleg I. ¹ , Davankov Vadim A. ³ , Zlotin Sergei G. ⁴ , Kiselev Mikhail G. ⁷ , Koklin Aleksei E. ⁴ , Kononevich Yuriy N. ³ , Lazhko Alexey E. ⁸ , Lunin Valerii V. ¹ , Lyubimov Sergey E. ³ , Martyanov Oleg N. ⁹ , Mishanin Igor I. ⁴ , Muzafarov Aziz M. ^3,5 , Nesterov Nikolay S. ⁹ , Nikolaev Alexander Yu. ³ , Oparin Roman D. ⁷ , Parenago Olga O. ⁸ , Parenago Oleg P. ² , Pokusaeva Yana A. ⁴ , Ronova Inga A. ³ , Solovieva Anna B. ¹⁰ , Temnikov Maxim N. ³ , Timashev Peter S. ^6,10,11 , Turova Olga V. ⁴ , Filatova Evgeniya V. ⁴ , Philippov Alexey A. ⁹ , Chibiryaev Andrey M. ⁹ , Shalygin Anton S. ⁹

Affiliations

1	Московский государственный университет имени М.В.Ломоносова
2	Институт нефтехимического синтеза имени А.В.Топчиева
3	Институт элементоорганических соединений имени А.Н.Несмеянова
4	Институт органической химии имени Н.Д.Зелинского
5	Институт синтетических полимерных материалов имени Н.С.Ениколопова
6	Первый Московский государственный медицинский университет имени И.М.Сеченова (Сеченовский университет)
7	Институт химии растворов имени Г.А.Крестова
8	Институт общей и неорганической химии имени Н.С.Курнакова
9	Институт катализа им. Г.К.Борескова Сибирского отделения Российской академии наук
10	Институт химической физики имени Н.Н.Семенова
11	Institute of Photonic Technologies, Federal Research Center `Crystallography and Photonics' of the Russian Academy of Sciences, ul. Pionerskaya 2, 108840 Moscow, Troitsk, Russian Federation

Funding (18)

1	Russian Foundation for Basic Research	18-29-06032 (АААА-А18-118071990084-2)
2	Ministry of Science and Higher Education of the Russian Federation	075-15-2019-1876
3	Russian Foundation for Basic Research	18-29-06022
4	Russian Foundation for Basic Research	18-29-06072 (АААА-А18-118072590020-1)
5	Russian Science Foundation	18-73-10153 (АААА-А18-118110990067-1)
6	Ministry of Science and Higher Education of the Russian Federation	14.W03.31.0018 (АААА-А19-119011890058-9)
7	Russian Foundation for Basic Research	18-03-00275 (АААА-А18-118020990090-1)
8	Russian Foundation for Basic Research	18-29-09166 (АААА-А19-119051690097-6)
9	Russian Science Foundation	20-73-10180
10	Russian Science Foundation	19-19-00614
11	Ministry of Science and Higher Education of the Russian Federation	0082-2019-0012 (АААА-А20-120021190043-7)
12	Russian Foundation for Basic Research	18-29-06019 (АААА-А18-118122590067-8)
13	Russian Foundation for Basic Research	18-29-06059 (АААА-А18-118071990048-4)
14	Russian Foundation for Basic Research	18-33-00982 (АААА-А18-118032990088-1)
15	Russian Science Foundation	18-15-00401 (АААА-А18-118062790040-8)
16	Russian Foundation for Basic Research	18-29-06008
17	Russian Foundation for Basic Research	18-03-00255 (АААА-А18-118012290098-9)
18	Russian Foundation for Basic Research	19-13-50154 (АААА-А20-120081390043-9)

This review analyzes the rapidly developing applications of supercritical fluids, mainly supercritical carbon dioxide, in catalysis, chemistry of high-molecular-weight compounds, and medicinal chemistry in Russia and abroad. It considers the methods of catalyst preparation based on impregnation of inorganic and organic supports with metal-containing compounds, immobilization of organometallic and metal complex reagents in matrices of oxide and polymer supports, and deposition processes employing supercritical fluids. An analysis is presented of the prospects for applying CO2 and some organic compounds, such as aliphatic alcohols, in sub- and supercritical states as reactants and (or) solvents for catalytic reactions of hydrocarbon isomerization and cracking, hydrogenation, dehydrogenation, oxidation, etc, including the asymmetric reactions. The review discusses processes of synthesizing and modifying polymer materials for various purposes, including aerogels, foams, and composites impregnated with photochromes, in a supercritical fluid medium. Special attention is paid to supercritical one-pot, which make the techniques of obtaining new materials simpler, less expensive, and more efficient. The work investigates the effect of supercritical CO2 on the morphology, gas separation characteristics, and dielectric properties of polymers. One of the promising applications of supercritical fluids in medicine that is discussed in this study is their use in transplantology and pharmacology, for example, for obtaining drug polymorphs with higher bioavailability. The review also provides an overview of the recent data on the use of EPR spectroscopy for studying the properties of supercritical fluids, including those exhibited in the vicinity of the critical point and identifying the intermediates of chemical reactions in such media. The bibliography includes 1151 references.

Alekseev E.S. , Alentiev A.Y. , Belova A.S. , Bogdan V.I. , Bogdan T.V. , Bystrova A.V. , Gafarova E.R. , Golubeva E.N. , Grebenik E.A. , Gromov O.I. , Davankov V.A. , Zlotin S.G. , Kiselev M.G. , Koklin A.E. , Kononevich Y.N. , Lazhko A.E. , Lunin V.V. , Lyubimov S.E. , Martyanov O.N. , Mishanin I.I. , Muzafarov A.M. , Nesterov N.S. , Nikolaev A.Y. , Oparin R.D. , Parenago O.O. , Parenago O.P. , Pokusaeva Y.A. , Ronova I.A. , Solovieva A.B. , Temnikov M.N. , Timashev P.S. , Turova O.V. , Filatova E.V. , Philippov A.A. , Chibiryaev A.M. , Shalygin A.S.
Supercritical Fluids in Chemistry
Russian Chemical Reviews. 2020. V.89. N12. P.1337-1427. DOI: 10.1070/rcr4932 WOS Scopus РИНЦ ANCAN OpenAlex

Алексеев Е.С. , Алентьев А.Ю. , Белова А.С. , Богдан В.И. , Богдан Т.В. , Быстрова А.В. , Гафарова Э.Р. , Голубева Е.Н. , Гребеник Е.А. , Громов О.И. , Даванков В.А. , Злотин С.Г. , Киселев М.Г. , Коклин А.Е. , Кононевич Ю.Н. , Лажко А.Э. , Лунин В.В. , Любимов С.Е. , Мартьянов О.Н. , Мишанин И.И. , Музафаров А.М. , Нестеров Н.С. , Николаев А.Ю. , Опарин Р.Д. , Паренаго О.О. , Паренаго О.П. , Покусаева Я.А. , Ронова И.А. , Соловьева А.Б. , Темников Б.Н. , Тимашев П.С. , Турова О.В. , Филатова Е.В. , Филиппов А.А. , Чибиряев А.М. , Шалыгин А.С.
Сверхкритические флюиды в химии
Успехи химии. 2020. Т.89. №12. С.1337-1427. DOI: 10.1070/RCR4932?locatt=label:RUSSIA РИНЦ

Published print:	Dec 1, 2020
Published online:	Dec 31, 2020

Web of science:	WOS:000604750000001
Scopus:	2-s2.0-85097877755
Elibrary:	45065180
Chemical Abstracts:	2021:1294439
Chemical Abstracts (print):	176:263480
OpenAlex:	W3091396021

DB	Citing
Web of science	77
Scopus	83
Elibrary	85
OpenAlex	94