Cyanoborohydride-based ionic liquids as green aerospace bipropellant fuels

Qinghua Zhang; Ping Yin; Jiaheng Zhang; Jean'Ne M. Shreeve

doi:10.1002/chem.201402704

Cyanoborohydride-based ionic liquids as green aerospace bipropellant fuels

Qinghua Zhang, Ping Yin, Jiaheng Zhang, Jean'Ne M. Shreeve

Research output: Contribution to journal › Article › peer-review

96 Scopus citations

Abstract

In propellant systems, the most common bipropellants are composed of two chemicals, a fuel (or reducer) and an oxidizer. Currently, the choices for propellant fuels rely mainly on hydrazine and its methylated derivatives, even though they are extremely toxic, highly volatile, sensitive to adiabatic compression (risk of detonation), and, therefore, difficult to handle. With this background, the search for alternative green propellant fuels has been an urgent goal of space science. In this study, a new family of cyanoborohydride-based ionic liquids (ILs) with properties and performances comparable to hydrazine derivatives were designed and synthesized. These new ILs as bipropellant fuels, have some unique advantages including negligible vapor pressure, ultra-short ignition delay (ID) time, and reduced synthetic and storage costs, thereby showing great application potential as environmentally friendly fuels in bipropellant formulations.

Original language	English
Pages (from-to)	6909-6914
Number of pages	6
Journal	Chemistry - A European Journal
Volume	20
Issue number	23
DOIs	https://doi.org/10.1002/chem.201402704
State	Published - 2 Jun 2014
Externally published	Yes

Keywords

green chemistry
hypergolic fuels
ignition delay
ionic liquids
propellants

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10.1002/chem.201402704

Cite this

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title = "Cyanoborohydride-based ionic liquids as green aerospace bipropellant fuels",

abstract = "In propellant systems, the most common bipropellants are composed of two chemicals, a fuel (or reducer) and an oxidizer. Currently, the choices for propellant fuels rely mainly on hydrazine and its methylated derivatives, even though they are extremely toxic, highly volatile, sensitive to adiabatic compression (risk of detonation), and, therefore, difficult to handle. With this background, the search for alternative green propellant fuels has been an urgent goal of space science. In this study, a new family of cyanoborohydride-based ionic liquids (ILs) with properties and performances comparable to hydrazine derivatives were designed and synthesized. These new ILs as bipropellant fuels, have some unique advantages including negligible vapor pressure, ultra-short ignition delay (ID) time, and reduced synthetic and storage costs, thereby showing great application potential as environmentally friendly fuels in bipropellant formulations.",

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T1 - Cyanoborohydride-based ionic liquids as green aerospace bipropellant fuels

AU - Zhang, Qinghua

AU - Yin, Ping

AU - Zhang, Jiaheng

AU - Shreeve, Jean'Ne M.

PY - 2014/6/2

Y1 - 2014/6/2

N2 - In propellant systems, the most common bipropellants are composed of two chemicals, a fuel (or reducer) and an oxidizer. Currently, the choices for propellant fuels rely mainly on hydrazine and its methylated derivatives, even though they are extremely toxic, highly volatile, sensitive to adiabatic compression (risk of detonation), and, therefore, difficult to handle. With this background, the search for alternative green propellant fuels has been an urgent goal of space science. In this study, a new family of cyanoborohydride-based ionic liquids (ILs) with properties and performances comparable to hydrazine derivatives were designed and synthesized. These new ILs as bipropellant fuels, have some unique advantages including negligible vapor pressure, ultra-short ignition delay (ID) time, and reduced synthetic and storage costs, thereby showing great application potential as environmentally friendly fuels in bipropellant formulations.

AB - In propellant systems, the most common bipropellants are composed of two chemicals, a fuel (or reducer) and an oxidizer. Currently, the choices for propellant fuels rely mainly on hydrazine and its methylated derivatives, even though they are extremely toxic, highly volatile, sensitive to adiabatic compression (risk of detonation), and, therefore, difficult to handle. With this background, the search for alternative green propellant fuels has been an urgent goal of space science. In this study, a new family of cyanoborohydride-based ionic liquids (ILs) with properties and performances comparable to hydrazine derivatives were designed and synthesized. These new ILs as bipropellant fuels, have some unique advantages including negligible vapor pressure, ultra-short ignition delay (ID) time, and reduced synthetic and storage costs, thereby showing great application potential as environmentally friendly fuels in bipropellant formulations.

KW - green chemistry

KW - hypergolic fuels

KW - ignition delay

KW - ionic liquids

KW - propellants

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Cyanoborohydride-based ionic liquids as green aerospace bipropellant fuels

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Keywords

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