Construction of high efficiency non-doped deep blue emitters based on phenanthroimidazole: remarkable substitution effects on the excited state properties and device performance

A global increase in environmental pollution demands the development of new "cleaner" chemical processes. Among urgent improvements, the replacement of traditional hydrocarbon-derived toxic organic solvents with neoteric solvents less harmful for the environment is one of the most vital issues. As a result of the favorable combination of their unique properties, ionic liquids (ILs), dense gases, and supercritical fluids (SCFs) have gained considerable attention as suitable green chemistry media for the preparation and modification of important chemical compounds and materials. In particular, they have a significant potential in a specific and very important area of research associated with the manufacture and processing of high-energy materials (HEMs). These large-scale manufacturing processes, in which hazardous chemicals and extreme conditions are used, produce a huge amount of hard-to-dispose-of waste. Furthermore, they are risky to staff, and any improvements that would reduce the fire and explosion risks of the corresponding processes are highly desirable. In this Review, useful applications of almost nonflammable ILs, dense gases, and SCFs (first of all, CO ) for nitration and other reactions used for manufacturing HEMs are considered. Recent advances in the field of energetic (oxygen-balanced and hypergolic) ILs are summarized. Significant attention is paid to the SCF-based micronization techniques, which improve the energetic performance of HEMs through an efficient control of the morphology and particle size distribution of the HEM fine particles, and to useful applications of SCFs in HEM processing that makes them less hazardous.

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Advanced energetic materials: novel strategies and versatile applications

Zlotin

Churakov

Egorov

et al. 2021

Mendeleev Communications

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The power of model-fitting kinetic analysis applied to complex thermal decomposition of explosives: reconciling the kinetics of bicyclo-HMX thermolysis in solid state and solution

Muravyev

Melnikov

Моногаров

et al. 2021

J Therm Anal Calorim

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Supercritical Antisolvent Processing of Nitrocellulose: Downscaling to Nanosize, Reducing Friction Sensitivity and Introducing Burning Rate Catalyst

et al. 2019

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A supercritical antisolvent process has been applied to obtain the nitrocellulose nanoparticles with an average size of 190 nm from the nitrocellulose fibers of 20 μm in diameter. Compared to the micron-sized powder, nano-nitrocellulose is characterized with a slightly lower decomposition onset, however, the friction sensitivity has been improved substantially along with the burning rate increasing from 3.8 to 4.7 mm·s−1 at 2 MPa. Also, the proposed approach allows the production of stable nitrocellulose composites. Thus, the addition of 1 wt.% carbon nanotubes further improves the sensitivity of the nano-nitrocellulose up to the friction-insensitive level. Moreover, the simultaneous introduction of carbon nanotubes and nanosized iron oxide catalyzes the combustion process evidenced by a high-speed filming and resulting in the 20% burning rate increasing at 12 MPa. The presented approach to the processing of energetic nanomaterials based on the supercritical fluid technology opens the way to the production of nitrocellulose-based nanopowders with improved performance.

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Stereodivergent Michael addition of diphenylphosphite to α-nitroalkenes in the presence of squaramide-derived tertiary amines: an enantioselective organocatalytic reaction in supercritical carbon dioxide

et al. 2014

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The first "green" asymmetric organocatalytic reaction in a supercritical carbon dioxide medium was elaborated. Under the proposed conditions (100 bar, 35 °C), α-nitroalkenes enantioselectively accept diphenylphosphite in the presence of bifunctional organocatalysts bearing the tertiary amino group and the squaramide fragment to afford corresponding β-nitrophosphonates in high yields and with enantioselectivities of up to 94% ee. By varying the catalyst structure it is possible to synthesize both β-nitrophosphonate enantiomers under these conditions. A significant potential of the supercritical extraction for product isolation and catalyst recovery was demonstrated. † Electronic supplementary information (ESI) available. See

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Synthesis of nitric acid esters from alcohols in a dinitrogen pentoxide/carbon dioxide liquid system

Kuchurov

Fomenkov

Zlotin

et al. 2012

Mendeleev Communications

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Asymmetric catalytic synthesis of functionalized tetrahydroquinolines in supercritical fluids

Filatova

Turova

Kuchurov

et al. 2016

The Journal of Supercritical Fluids

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HMX surface modification with polymers via sc-CO2 antisolvent process: A way to safe and easy-to-handle energetic materials

Kosareva

Zharkov

Meerov

et al. 2022

Chemical Engineering Journal

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Ilya V. Kuchurov

Prospective Symbiosis of Green Chemistry and Energetic Materials

Advanced energetic materials: novel strategies and versatile applications

The power of model-fitting kinetic analysis applied to complex thermal decomposition of explosives: reconciling the kinetics of bicyclo-HMX thermolysis in solid state and solution

Supercritical Antisolvent Processing of Nitrocellulose: Downscaling to Nanosize, Reducing Friction Sensitivity and Introducing Burning Rate Catalyst

Stereodivergent Michael addition of diphenylphosphite to α-nitroalkenes in the presence of squaramide-derived tertiary amines: an enantioselective organocatalytic reaction in supercritical carbon dioxide

Synthesis of nitric acid esters from alcohols in a dinitrogen pentoxide/carbon dioxide liquid system

Asymmetric catalytic synthesis of functionalized tetrahydroquinolines in supercritical fluids

HMX surface modification with polymers via sc-CO2 antisolvent process: A way to safe and easy-to-handle energetic materials

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