Your search keyword '"Glavatskih, Sergei"' showing total 13 results

1. Transition anionic complex in trihexyl(tetradecyl)phosphonium-bis(oxalato)borate ionic liquid – revisited.

Author

Shimpi, Manishkumar R., Rohlmann, Patrick, Shah, Faiz Ullah, Glavatskih, Sergei, and Antzutkin, Oleg N.

Abstract

It was found that Li[BOB]·nH2O salts were not readily suitable for the synthesis of high-purity orthoborate-based tetraalkylphosphonium ionic liquids, as exemplified here for trihexyl(tetradecyl)phosphonium bis(oxalato)borate, [P6,6,6,14][BOB]; along with [BOB]−, a metastable transition anionic complex (TAC) of dihydroxy(oxalato)borate with oxalic acid, [B(C2O4)(OH)2·(HOOC–COOH)]−, was also formed and passed into the ionic liquid in the course of the metathesis reaction with trihexyl(tetradecyl)phosphonium chloride. On the contrary, Na[BOB] was found to be a more suitable reagent for the synthesis of this IL, because [BOB]− anions safely passed into the final IL without hydrolysis, when metathesis reactions were performed using aqueous-free media. Since ultra-pure Na[BOB] is not commercially available, in this work, a preparation protocol for ultra-pure (>99%) Na[BOB] was developed: (i) molar ratios of boric and oxalic acids were optimised to minimise boron-containing impurities, (ii) the Na[BOB] product was thoroughly purified by sequential washing of a fine powder product in hot acetonitrile and ethanol and (iii) characterised using powder X-ray diffraction and solid-state 11B MAS NMR spectroscopy. The physico-chemical properties of the prepared boron-impurity-free IL, i.e., its density, viscosity, electric conductivity, glass-transition temperature and thermal stability, were found to be significantly different from those of the previously reported [P6,6,6,14][BOB], containing ca. 45 mol% of TAC, [B(C2O4)(OH)2·(HOOC–COOH)]−. It was found that a high-purity [P6,6,6,14][BOB] prepared in this work has a considerably lower viscosity, a higher viscosity index and a wider electro-chemical window (ECW) compared to those of the sample of [P6,6,6,14][BOB] with ca. 45 mol% of TAC. Interestingly, [B(C2O4)(OH)2·(HOOC–COOH)]− in the latter sample almost completely transformed into [BOB]− anions upon heating of the IL sample at 413 K for 1 hour, as confirmed using both 11B and 13C NMR. Therefore, in this work, apart from a well-optimised synthetic protocol for boron-impurity-free [P6,6,6,14][BOB], implications of boron-containing transition anionic complexes in tetraalkylphosphonium-orthoborate ILs used in different applications were highlighted. [ABSTRACT FROM AUTHOR]

Published

2021

2. Effect of water on the electroresponsive structuring and friction in dilute and concentrated ionic liquid lubricant mixtures.

Author

Pilkington, Georgia A., Welbourn, Rebecca, Oleshkevych, Anna, Watanabe, Seiya, Pedraz, Patricia, Radiom, Milad, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The effect of water on the electroactive structuring of a tribologically relevant ionic liquid (IL) when dispersed in a polar solvent has been investigated at a gold electrode interface using neutron reflectivity (NR). For all solutions studied, the addition of small amounts of water led to clear changes in electroactive structuring of the IL at the electrode interface, which was largely determined by the bulk IL concentration. At a dilute IL concentration, the presence of water gave rise to a swollen interfacial structuring, which exhibited a greater degree of electroresponsivity with applied potential compared to an equivalent dry solution. Conversely, for a concentrated IL solution, the presence of water led to an overall thinning of the interfacial region and a crowding-like structuring, within which the composition of the inner layer IL layers varied systematically with applied potential. Complementary nanotribotronic atomic force microscopy (AFM) measurements performed for the same IL concentration, in dry and ambient conditions, show that the presence of water reduces the lubricity of the IL boundary layers. However, consistent with the observed changes in the IL layers observed by NR, reversible and systematic control of the friction coefficient with applied potential was still achievable. Combined, these measurements provide valuable insight into the implications of water on the interfacial properties of ILs at electrified interfaces, which inevitably will determine their applicability in tribotronic and electrochemical contexts. [ABSTRACT FROM AUTHOR]

Published

2020

3. Electroresponsive structuring and friction of a non-halogenated ionic liquid in a polar solvent: effect of concentration.

Author

Pilkington, Georgia A., Oleshkevych, Anna, Pedraz, Patricia, Watanabe, Seiya, Radiom, Milad, Reddy, Akepati Bhaskar, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

Neutron reflectivity (NR) measurements have been employed to study the interfacial structuring and composition of electroresponsive boundary layers formed by an ionic liquid (IL) lubricant at an electrified gold interface when dispersed in a polar solvent. The results reveal that both the composition and extent of the IL boundary layers intricately depend on the bulk IL concentration and the applied surface potential. At the lowest concentration (5% w/w), a preferential adsorption of the IL cation at the gold electrode is observed, which hinders the ability to electro-induce changes in the boundary layers. In contrast, at higher IL bulk concentrations (10 and 20% w/w), the NR results reveal a significantly larger concentration of the IL ions at the gold interface that exhibit significantly greater electroresponsivity, with clear changes in the layer composition and layer thickness observed for different potentials. In complementary atomic force microscopy (AFM) measurements on an electrified gold surface, such IL boundary layers are demonstrated to provide excellent friction reduction and electroactive friction (known as tribotronics). In agreement with the NR results obtained, clear concentration effects are also observed. Together such results provide valuable molecular insight into the electroactive structuring of ILs in solvent mixtures, as well as provide mechanistic understanding of their tribotronic behaviours. [ABSTRACT FROM AUTHOR]

Published

2020

4. Interfacial structuring of non-halogenated imidazolium ionic liquids at charged surfaces: effect of alkyl chain length.

Author

Watanabe, Seiya, Pilkington, Georgia A., Oleshkevych, Anna, Pedraz, Patricia, Radiom, Milad, Welbourn, Rebecca, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

Control of the interfacial structures of ionic liquids (ILs) at charged interfaces is important to many of their applications, including in energy storage solutions, sensors and advanced lubrication technologies utilising electric fields. In the case of the latter, there is an increasing demand for the study of non-halogenated ILs, as many fluorinated anions have been found to produce corrosive and toxic halides under tribological conditions. Here, the interfacial structuring of a series of four imidazolium ILs ([CnC1Im]) of varying alkyl chain lengths (n = 5, 6, 7, 10), with a non-halogenated borate-based anion ([BOB]), have been studied at charged interfaces using sum frequency generation (SFG) spectroscopy and neutron reflectivity (NR). For all alkyl chain lengths, the SFG spectra show that the cation imidazolium ring responds to the surface charge by modifying its orientation with respect to the surface normal. In addition, the combination of SFG spectra with electrochemical NR measurements reveals that the longest alkyl chain length (n = 10) forms a bilayer structure at all charged interfaces, independent of the ring orientation. These results demonstrate the tunability of IL interfacial layers through the use of surface charge, as well as effect of the cation alkyl chain length, and provide valuable insight into the charge compensation mechanisms of ILs. [ABSTRACT FROM AUTHOR]

Published

2020

5. Rheology of phosphonium ionic liquids: a molecular dynamics and experimental study.

Author

Sarman, Sten, Wang, Yong-Lei, Rohlmann, Patrick, Glavatskih, Sergei, and Laaksonen, Aatto

Abstract

We have studied the rheological behavior of the ionic liquid trihexyl(tetradecyl)phosphonium bis(mandelato)borate, [P66614][BMB], and compared it with that of another ionic liquid, namely trihexyl(tetradecyl)phosphonium chloride, [P66614][Cl]. The non-halogenated [P66614][BMB] has been selected as it is known to provide enhanced lubrication performance and is, consequently, of technological importance. The ionic liquid [P66614][Cl], despite its relatively simple anion, exhibits viscosities very similar to those of [P66614][BMB], making it an excellent reference fluid for the modeling study. The viscosities of the ionic liquids have been obtained by equilibrium atomistic simulations using the Green–Kubo relation, and by performing nonequilibrium shear flow simulations. The influence of the simulation system size and a reduction of the atomic charges on the viscosities of the ionic liquids are systematically studied. The atomic charges are reduced to mimic the temperature dependent charge transfer and polarization effects. It has been found that scaling the point charges with factors between 0.60 and 0.80 from full ion charges can provide reliable viscosities of [P66614][BMB], consistent with the experimentally measured viscosities within the studied temperature interval from 373 to 463 K. The viscosities of [P66614][Cl] have been obtained with scaling factors between 0.80 and 1.0 reflecting the lower polarizability and charge transfer effects of the chloride anion. [ABSTRACT FROM AUTHOR]

Published

2018

6. Acceleration of diffusion in ethylammonium nitrate ionic liquid confined between parallel glass plates.

Author

Filippov, Andrei, Gnezdilov, Oleg I., Hjalmarsson, Nicklas, Antzutkin, Oleg N., Glavatskih, Sergei, Furó, István, and Rutland, Mark W.

Abstract

Diffusion of EAN confined between polar glass plates separated by a few micrometers is higher by a factor of ca. 2 as compared to bulk values. Formation of a new phase, different to the bulk, was suggested. [ABSTRACT FROM AUTHOR]

Published

2017

7. Structure and dynamics elucidation of ionic liquids using multidimensional Laplace NMR.

Author

Javed, Muhammad Asadullah, Ahola, Susanna, Håkansson, Pär, Mankinen, Otto, Aslam, Muhammad Kamran, Filippov, Andrei, Shah, Faiz Ullah, Glavatskih, Sergei, Antzutkin, Oleg N., and Telkki, Ville-Veikko

Subjects

IONIC liquids, LAPLACE transformation, NUCLEAR magnetic resonance, THERMAL stability, CATALYSIS

Abstract

We demonstrate the ability of multidimensional Laplace NMR (LNMR), comprising relaxation and diffusion experiments, to reveal essential information about microscopic phase structures and dynamics of ionic liquids that is not observable using conventional NMR spectroscopy or other techniques. [ABSTRACT FROM AUTHOR]

Published

2017

8. Influence of electric potential on the apparent viscosity of an ionic liquid: facts and artifacts.

Author

Ploss, Moritz A., Rutland, Mark W., and Glavatskih, Sergei

Abstract

According to recent findings, the steady shear viscosity of the ionic liquid 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([Emim][Tf2N]) decreases significantly under the influence of electric potential. This implies a causal connection between nanoscale ordering at the electrified interface and a macroscopic change of transport properties. To study this phenomenon in more detail, we reproduced the above-mentioned measurements; however, we find no evidence that the viscosity of [Emim][Tf2N] is a function of electric potential. Additionally, our results show that steady shear measurements can lead to artifacts that, at first glance, may appear to be potential-induced changes in viscosity. We demonstrate that the artifacts result from a sliding electrical contact at the working electrode of the electrochemical cell and we suggest to consider our findings for future viscosity measurements of ionic liquids. [ABSTRACT FROM AUTHOR]

Published

2016

9. Weighing the surface charge of an ionic liquid.

Author

Hjalmarsson, Nicklas, Wallinder, Daniel, Glavatskih, Sergei, Atkin, Rob, Aastrup, Teodor, and Rutland, Mark W.

Published

2015

10. The effect of the cation alkyl chain length on density and diffusion in dialkylpyrrolidinium bis(mandelato)borate ionic liquids.

Author

Filippov, Andrei, Taher, Mamoun, Shah, Faiz Ullah, Glavatskih, Sergei, and Antzutkin, Oleg N.

Abstract

The physicochemical properties of ionic liquids are strongly affected by the selective combination of the cations and anions comprising the ionic liquid. In particular, the length of the alkyl chains of ions has a clear influence on the ionic liquid's performance. In this paper, we study the self-diffusion of ions in a series of halogen-free boron-based ionic liquids (hf-BILs) containing bis(mandelato)borate anions and dialkylpyrrolidinium cations with long alkyl chains CnH2n+1 with n from 4 to 14 within a temperature range of 293–373 K. It was found that the hf-BILs with n = 4–7 have very similar diffusion coefficients, while hf-BILs with n = 10–14 exhibit two liquid sub-phases in almost the entire temperature range studied (293–353 K). Both liquid sub-phases differ in their diffusion coefficients, while values of the slower diffusion coefficients are close to those of hf-BILs with shorter alkyl chains. To explain the particular dependence of diffusion on the alkyl chain length, we examined the densities of the hf-BILs studied here. It was shown that the dependence of the density on the number of CH2 groups in long alkyl chains of cations can be accurately described using a “mosaic type” model, where regions of long alkyl chains of cations (named ‘aliphatic’ regions) and the residual chemical moieties in both cations and anions (named ‘ionic’ regions) give additive contributions. Changes in density due to an increase in temperature and the number of CH2 groups in the long alkyl chains of cations are determined predominantly by changes in the free volume of the ‘ionic’ regions, while ‘aliphatic’ regions are already highly compressed by van der Waals forces, which results in only infinitesimal changes in their free volumes with temperature. [ABSTRACT FROM AUTHOR]

Published

2014

11. Halogen-free pyrrolidinium bis(mandelato)borate ionic liquids: some physicochemical properties and lubrication performance as additives to polyethylene glycol.

Author

Taher, Mamoun, Shah, Faiz Ullah, Filippov, Andrei, de Baets, Patrick, Glavatskih, Sergei, and Antzutkin, Oleg N.

Published

2014

12. Novel halogen-free chelated orthoborate–phosphonium ionic liquids: synthesis and tribophysical propertiesElectronic supplementary information (ESI) available: Synthesis and characterisation detail, ESI-MS and (1H, 13C, 31P and 11B) NMR spectra of all the synthesised halogen-free orthoborate ionic liquids (hf-BILs) and 3D images of the discs. See DOI: 10.1039/c1cp21139k

Author

Shah, Faiz Ullah, Glavatskih, Sergei, MacFarlane, Douglas R., Somers, Anthony, Forsyth, Maria, and Antzutkin, Oleg N.

Abstract

We report on the synthesis, characterisation, and physical and tribological properties of halogen-free ionic liquids based on various chelated orthoborate anions with different phosphonium cations, both without halogen atoms in their structure. Important physical properties of the ILs including glass transition temperatures, density, viscosity and ionic conductivity were measured and are reported here. All of these new halogen-free orthoborate ionic liquids (hf-BILs) are hydrophobic and hydrolytically stable liquids at room temperature. As lubricants, these hf-BILs exhibit considerably better antiwear and friction reducing properties under boundary lubrication conditions for steel–aluminium contacts as compared with fully formulated (15W-50 grade) engine oil. Being halogen free these hf-BILs offer a more environmentally benign alternative to ILs being currently developed for lubricant applications. [ABSTRACT FROM AUTHOR]

Published

2011

13. NMR self-diffusion study of a phosphonium bis(mandelato)borate ionic liquid.

Author

Filippov A, Shah FU, Taher M, Glavatskih S, and Antzutkin ON

Abstract

Newly synthesised halogen-free boron based ionic liquids (hf-BILs) composed of chelated orthoborate anions and phosphonium cations have hydrolytic stability, low melting point and outstanding wear and friction reducing properties. We report here the peculiarities of self-diffusion in one representative from this class, trihexyltetradecylphosphonium bis(mandelato)borate, [P6,6,6,14][BMB], in the temperature range of its practical interest, 20-100 °C. NMR techniques demonstrated complicated diffusional behaviour - the ionic liquid can exist in one or two liquid "phases". In the low-temperature range (20-50 °C), two phases coexist where the cations, [P6,6,6,14], are contained mainly in the phase with slower diffusion coefficients while the anions, [BMB], are in the phase with faster diffusion coefficients. Cations have lower diffusion coefficients with a factor of 20 as compared with the anions, an effect which is caused by aggregation of cations into domains due to so-called "hydrophobic interaction" of their hydrocarbon chains. As the temperature rises above 60 °C, the two phases merge into one where both ions have equal diffusion coefficients. This is caused by thermal motion making the cation domains smaller in size and more easily interacting with anions. As a result, anions and cations diffuse in this high-temperature range as a pair.

Published

2013