Abstract
The applicability of ionic liquids (ILs) has increased over the last years, and even new opportunities are becoming a reality, i.e. mixtures of pure IL and inorganic salt as electrolytes for smart electrochemical devices, yet the effects on the environment are almost unknown. In this work, the ecotoxicity of two pure protic ILs (Ethylammonium nitrate and Ethylimidazolium nitrate) and two pure aprotic ILs (butylmethylpyrrolidinium bis(trifluoromethylsulfonyl)imide and butyldimethylimidazolium bis(trifluoromethylsulfonyl)imide) and that of their binary mixtures with inorganic salts with common cation was tested towards changes in the bioluminescence of the bacteria Aliivibrio fischeri, using the Microtox® standard toxicity test. EC50 of these mixtures was determined over three standard periods of time and compared with the corresponding values to pure ILs. Results indicate that the aprotic ILs are more toxic than protic and that aromatic are more toxic than non-aromatic. The addition of inorganic mono (LiNO3), di (Ca(NO3)2·4H2O, Mg(NO3)2·6H2O) and trivalent (Al(NO3)3·9H2O) salts in binary mixtures with EAN was analysed first. The latter was found to induce an important increase in toxicity. Finally, mixtures of IL-inorganic lithium salt (LiNO3, for the protic ILs and LiTFSI for the aprotic ILs) toxicity was also studied, which showed toxicity levels strongly dependent on the IL of the mixture.
Highlights
As is well known, ionic liquids (ILs) are compounds formed entirely by ions which have low melting points
A set of ecotoxicity parameters obtained (EC10, EC20 and EC50) for four ILs, two protic and two aprotic, towards the toxicity endpoint of bioluminescence of the bacteria A. fischeri is reported in this work
The ecotoxicity of two protic ILs and two aprotic ILs (butylmethylpyrrolidinium bis imide and butyldimethylimidazolium bisimide) pure and binary mixtures with different inorganic salts of electrochemical interest were tested towards changes on the bioluminescence of the bacteria Aliivibrio fischeri, using the Microtox® standard toxicity test
Summary
Ionic liquids (ILs) are compounds formed entirely by ions which have low melting points. Aside from non-volatility, other characteristic properties of ILs include high thermal and chemical stability, high viscosity, solubility in water and other solvents, a wide electrochemical window and especially tuneability (Yasuda et al 2013) All these characteristics make ILs good candidates to be used in high-temperature applications such as lubrication (Otero et al 2014), desulfurization of fuels (Gutiérrez et al 2018), batteries (Menne et al 2013; Balducci 2017; Wang et al 2020), fuel cells (Nakamoto and Watanabe 2007), fluids in refrigeration systems (Sánchez et al 2016; Moreno et al 2018) and APIs (Shamshina and Rogers 2020)
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