Your search keyword '"Nockemann, Peter"' showing total 288 results

251. Intense near-infrared luminescence of anhydrous lanthanide(III) iodides in an imidazolium ionic liquid

Author

Arenz, Sven, Babai, Arash, Binnemans, Koen, Driesen, Kris, Giernoth, Ralf, Mudring, Anja-Verena, and Nockemann, Peter

Subjects

*LIGHT sources, *NEODYMIUM, *LUMINESCENCE, *RAINFALL

Abstract

Abstract: Anhydrous neodymium(III) iodide and erbium(III) iodide were dissolved in carefully dried batches of the ionic liquid 1-dodecyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide, [C12mim][Tf2N]. Provided that the ionic liquid had a low water content, intense near-infrared emission could be observed for both the neodymium(III) ion and for the erbium(III) ion. Luminescence lifetimes have been measured, and the quantum yield of the neodymium(III) sample has been measured. Exposure of the hygroscopic samples to atmospheric moisture conditions caused a rapid decrease of the luminescence intensities. [Copyright &y& Elsevier]

Published

2005

252. The 'complex' chemistry of Cr(III) in deep eutectic solvents : towards sustainable Cr(VI)-free electroplating

Author

Verdonck, Tim, Van Hecke, Kristof, Van Deun, Rik, Nockemann, Peter, and Verpoort, Philippe

Subjects

Chemistry, Green Chemistry, Coordination Chemistry, Industrial Chemistry

Abstract

Steel parts are being subjected to extreme conditions in many industrial applications. A widely used technology for the protection of steel is the electroplating of chromium from aqueous Cr(VI) elec-trolytes. However, the use of these metal-containing solutions is being banned because of the carcinogenic properties of Cr(VI). For several years, researchers in OCAS (R&D center affiliated with ArcelorMittal Ghent) are looking for sustainable solutions. Some Cr(III)-containing deep eutectic solvents are being regarded as very promising alternatives for these existing electrolytes. Despite the possibility to deposit function hard chrome coatings from these innovating liquids, still less is known about the mechanism of this pro-cess. This PhD thesis focusses on the question which chromium complexes are present in these new solvents and in which way this influences some important physicochemical properties. In the first part, a series of reference absorption spectra were obtained for several possible com-plexes by using the deconvolution technique ‘MCR-ALS’. This was performed in both aqueous solutions and deep eutectic solvents. In the next part, this knowledge was used to investigate ternary xCrCl3·6H2O/yChCl/zH2O mixtures. Besides the previously used techniques (UV/Vis and EXAFS spec-troscopy), we used ATR-FTIR spectroscopy, density, refractive index, and conductivity measurement to study a variety of properties as a function of the composition.

Published

2019

253. Nadir toprak elementlerinin ayrılmasında kullanılacak iyonik sıvı sentezi ve geliştirilen iyonojellerin kullanılabilirliğinin incelenmesi

Author

Dandıl, Sahra, Açıkgöz, Çağlayan, Nockemann, Peter, and Kimya Mühendisliği Ana Bilim Dalı

Subjects

Solvent Extraction, Membran Sistem, Rare Earth Elements, İyonojeller, İyonik Sıvılar, Membrane systems, Ionic Liquids, Ionogels, Chemical Engineering, Kimya Mühendisliği, Membrane System, Nadir Toprak Elementleri, Sıvı - Sıvı Ekstraksiyon

Abstract

Anadolu Üniversitesi ve Bilecik Şeyh Edebali Üniversitesi tarafından ortak yürütülen program. Tez çalışması kapsamında malonamit ile fonksiyonelleştirilmiş bir iyonik sıvı ([MAL][NTf2]) sentezlendi. İyonik sıvının sentezi dört aşamada gerçekleştirildi ve yapısı NMR, FTIR ve HRMS analizleri ile aydınlatıldı. Çalışmaların ilk kısmında, sentezlenen iyonik sıvı kullanılarak Nd, Dy, Eu, La, Lu, Y ve Yb NTE'lerinin, Ba, Mg, Al, Fe, Ni ve Co metallerinin, yeşil, mavi ve kırmızı fosforların ve Nd/Dy ve Eu/Zn karışımlarının asidik ortamda sıvı - sıvı ekstraksiyonları gerçekleştirildi. Ekstraksiyon çalışmaları pH'a bağlı olarak sürdürüldü ve metal konsantrasyonları ICP analizi ile belirlendi. Daha sonra sentezlenen iyonik sıvıya katı bir form kazandırmak amacıyla; iyonik sıvı bir silika kaynağı (TMOS, TEOS, MTMS) ve hem çözücü hem de katalizör olarak kullanılan formik asit ile iyonojel haline getirildi. İyonojel oluşumu için silika kaynağı cinsi, bileşenlerin molar oranları, jelleşme zamanı ve yaşlandırma zamanı gibi sistem parametreleri incelendi. İyonojeller BET, SEM, TEM, FTIR, Raman, TGA, XRD, UV-Vis, CHN-S analizleri ve sertlik testi ile karakterize edildi. Son olarak, elde edilen iyonojellerin endüstriyel olarak büyük öneme sahip Eu/Zn karışımlarının ayrımında membran olarak kullanılabilirliği test edildi. Membran sistem çalışmalarında kullanılmak üzere bir cam difüzyon hücresi tasarlandı ve ayrımın gerçekleşebilmesi için sistem parametreleri çalışıldı. Elde edilen sonuçlara göre; malonamit ile fonksiyonelleştirilmiş iyonik sıvının La(III), Dy(III), Yb(III) ve Lu(III) ayrımında sırasıyla % 71, % 92, % 79 ve % 88 oranında yüksek ekstraksiyon yüzdeleri verdiği ve nadir toprak elementleri için seçicilik gösterdiği belirlendi. Kararlı iyonojeller TEOS: formik asit molar oranı 1 : 8, jelleşme zamanı 96 saat ve yaşlandırma zamanı 8 gün için elde edildi. Sentezlenen iyonojellerin geniş yüzey alanı, gözenekli yapı, termal kararlılık ve amorf yapı gösterdiği belirlendi. Membran sistem çalışmalarında besleme fazı olarak 1 M HCl içinde bulunan Eu/Zn karışımı için alıcı faz olarak 0,1 M Na2CO3 kullanıldığında, % 24 oranında Zn(II)'nin alıcı faza geçerek Eu(III)'ten ayrılabildiği tespit edildi. Günümüzde birçok farklı alanda yaygın bir şekilde kullanılan NTE'lerin ayrımında, sentezlenen iyonik sıvı ve geliştirilen iyonojellerin kullanılabilirliği yeşil kimya alanında oldukça önemli ve umut vericidir. In the study, a malonamide functionalized ionic liquid ([MAL][NTf2]) was synthesized. The synthesis of ionic liquid was carried out in four steps and the structure was evaluated by NMR, FTIR and HRMS analyzes. In the first part of the study, solvent extractions of Nd, Dy, Eu, La, Lu, Y and Yb rare earth elements, Ba, Mg, Al, Fe, Ni and Co metals, green, blue and red phosphors and Nd / Dy and Eu/Zn mixture were carried out using the synthesized ionic liquid in an acidic medium. The extraction studies were followed depending on pH. The metal concentrations were determined by ICP analysis. Then, in order to give a solid form to the synthesized ionic liquid; the ionogel was synthesized with a silica source (TMOS, TEOS, MTMS) and formic acid used as both a solvent and a catalyst. System parameters such as silica source type, molar ratios of components, gelling time and aging time were investigated for ionogel formation. Ionogels were characterized by BET, SEM, TEM, FTIR, Raman, TGA, XRD, UV-Vis, CHN-S analyses and hardness test. The obtained ionogels were tested for their applicability as a membrane in the separation of industrially important Eu / Zn mixtures. A glass diffusion cell was designed as a membrane system and system parameters were studied to enable the separation. According to the results; [MAL][NTf2] gave high extraction percentages of 71%, 92%, 79% and 88%, respectively, for La(III), Dy(III), Yb(III) and Lu(III), and showed selectivity for rare earth elements. Ionogels were obtained with the TEOS: formic acid molar ratio of 1 : 8, gelation time of 96 hours and aging time of 8 days. The ionogels synthesized in this way presented high surface area, porous structure, thermal stability and amorphous structure. In the membrane system studies, 24% Zn(II) was transferred to the receiving phase and seperated from Eu(III) by using Eu/Zn mixture in 1 M HCl as feed phase and 0.1 M Na2CO3 as receiving phase. Nowadays, on the separation of rare earth elements widely used in many different fields, the use of synthesized ionic liquid and developed ionogels is very important and promising for green chemistry.

Published

2019

254. Cover Picture: Highly Selective Reduction of α, β‐Unsaturated Aldehydes and Ketones under Ambient Conditions using Tetraalkylphosphonium‐based Ionic Liquids (42/2018).

Author

Ralphs, Kathryn, McCourt, Éadaoin, Ormandy, Christopher, Carneiro de Souza, Thiago A., Nockemann, Peter, Jacquemin, Johan, and Manyar, Haresh G.

Abstract

The cover picture shows highly selective reduction of cinnamaldehyde to cinnamyl alcohol facilitated in ionic liquids. In this work, a new protocol for selective reduction of α, β‐unsaturated aldehydes and ketones, has been developed in presence of ionic liquids by using NaBH4 as reducing agent. Under optimised conditions in [P6,6,6,14][N(CN)2] ionic liquid, 97% conversion of cinamaldehyde with 100% selectivity to cinnamyl alcohol was achieved with enhanced reaction rates. The reaction protocol is facile and [P6,6,6,14][N(CN)2] ionic liquid was easily recycled without any noticeable loss of activity and selectivity. More information can be found in the Full Paper by Manyar et al. (DOI: 10.1002/slct.201801092). [ABSTRACT FROM AUTHOR]

Published

2018

255. Cover Feature: Spontaneous Substitutions at Phosphorus Trihalides in Imidazolium Halide Ionic Liquids: Grotthuss Diffusion of Anions? (Chem. Eur. J. 61/2018).

Author

Hollóczki, Oldamur, Wolff, Alexander, Pallmann, Julia, Whiteside, Rachel E., Hartley, Jennifer, Grasser, Matthias A., Nockemann, Peter, Brunner, Eike, Doert, Thomas, and Ruck, Michael

Subjects

*SUBSTITUTION reactions, *PHOSPHORUS compounds, *HALIDES

Abstract

Phosphorus halides in 1‐alkyl‐3‐methylimidazolium halide ionic liquids form complex anions. The dynamic exchange of the halides in these complexes—observed by theoretical calculations—suggests the possibility of a structural diffusion of the halide anions in the liquid. Accordingly, potential highly conducting solvents are envisioned, in which substitution reactions at molecular halides in halide ionic liquids can be exploited to increase ion mobilities. More information can be found in the Full Paper by O. Hollóczki, et al. on page 16323. [ABSTRACT FROM AUTHOR]

Published

2018

256. Task-specific ionic liquids for solubilizing metal compounds : Taak specifieke ionische vloeistoffen voor het oplossen van metaalverbindingen

Author

Thijs, Ben, Nockemann, Peter, and Binnemans, Koen

Abstract

The main goal of this PhD thesis was to design new task-specific ionic liquids with the ability to dissolve metal compounds. Despite the large quantity of papers published on ionic liquids, not much is known about the mechanisms of dissolving metals in ionic liquids or about metal-containing ionic liquids. Additionally, many of the commercially available ionic liquids exhibit a very limited solubilizing power for metal compounds, although this is for many applications like electrodeposition and catalysis one of the essential features. To enhance the ability of ionic liquids to incorporate metals in ionic liquids, functional groups that are able to coordinate to the metal ions are required. Task-specific ionic liquids combine, in the best case, a solubilizing power that is comparable with organic solvents with the “green” character of ionic liquids, which makes them environmental friendly solvents. Before these compounds will be applicable on larger scale, these functionalized ionic liquids have to be cheap and easily accessible. Firstly, a protonated betaine bistriflimide, [Hbet][Tf2N], was introduced. This is a cheap and easily accessible functionalized ionic liquid with the ability to dissolve large quantities of metal oxides and metal hydroxides. The metal solubilizing power of this compound is selective. Soluble are: oxides of the trivalent rare earths, uranium(VI) oxide, zinc(II) oxide, cadmium(II) oxide, mercury(II) oxide, nickel(II) oxide, copper(II) oxide, palladium(II) oxide, lead(II) oxide and silver(I) oxide. Insoluble or very poorly soluble are iron(III) and manganese(II) oxides, cobalt(II) oxides, as well as aluminium oxide. The metals can be stripped from the ionic liquid by treatment of the ionic liquid with an acidic aqueous solution. After transfer of the metal ions into the aqueous phase, the ionic liquid can be separated and recycled. Betainium bistriflimide forms one phase with water at high temperatures, whereas phase separation occurs below 55.5 °C (“phase switching” behavior). The mixtures of the ionic liquid with water also show a pH-dependent phase switching behavior: two phases occur at low pH, whereas one phase is present under neutral or alkaline conditions. The structures, the energetics and the charge distribution of the betainium cation, the bistriflimide anion, as well as of the cation-anion pairs were studied by density functional theory calculations (DFT). Additionally, the crystal structures of two modifications of this ionic liquid were determined. A range of crystal structures of the metal complexes obtained from the above mentioned functionalized ionic liquid were examined. This study revealed a rich structural variety especially of oligonuclear complexes, whereas in the literature mainly monomeric or polymeric complexes with this type of ligands are known. Dimeric betaine bistriflimide structures were found for the dysprosium(III) compound; the europium(III) compound and for the copper(II) compound; a trimeric betaine bistriflimide structure for the cobalt(II) compound; a tetrameric betaine bistriflimide structure for the manganese(II) compound; a pentameric betaine bistriflimide structure for the nickel(II) compound; , a cluster formation for the lead(II) compound; and polymeric structures for the cadmium(II) compound; and the silver(I) compound. In the crystal structure of cobalt(II) betaine bistriflimide, pure ionic liquid [Hbet][Tf2N] co-crystallized. The cation-anion interaction found in the crystal structure of the pure ionic liquid remained in the metal complex. No hydrogen bonding between the ionic liquid and the metal complex could be observed. It was demonstrated that ionic liquids might be good media for crystal engineering. In order to modify the physical properties of the betainium ionic liquid, structural modifications have been introduced. Different kinds of cations, all bearing a carboxylic functional group, were applied. Six cations with a positively charged nitrogen ion – l-carnitine, pyrrolidinium, morpholinium, pyridinium, piperidinium, imidazolium and one with a positively charged phosphonium ion - tributylphosphonium, were studied. Despite the rich structural variation, surprisingly small differences in physical properties of these ionic liquids were observed. This can be explained by the strong and dominating influence of the carboxylic group on the physical properties. To study the influence of the carboxylic group, an ionic liquid with a hydroxyl group instead of the carboxylic group, choline bistriflimide, was introduced. Due to this hydroxyl group, the ionic liquid showed only a limited solubility towards metal compounds. This hydrophobic ionic liquid also shows a “phase switching” behavior; this occurred at higher temperatures than in the case of the betainium bistriflimide ionic liquid. Due to the absence of a conjugated system, this ionic liquid possesses a high UV-transparency. This can be an interesting property for the application of this choline bistriflimide ionic liquid as medium for photophysical reactions or as a solvent for spectroscopy. Choline saccharinate and choline acesulfamate are two examples of hydrophilic ionic liquids, which can be prepared from easily available starting materials (choline chloride and a non-nutritive sweetener). The (eco)toxicity of these ionic liquids in aqueous solution is very low in comparison with other types of ionic liquids. A general method for the synthesis and purification of hydrophilic ionic liquids has been demonstrated. The method implies a silver-free metathesis reaction, followed by the purification of the ionic liquids by ion-exchange chromatography. The crystal structures show a marked difference in hydrogen bonding between the two ionic liquids [Chol][Sac] and [Chol][Ace], although the saccharinate and the acesulfamate anions show structural similarities. The optimized structures, the energetics and the charge distribution of cation-anion pairs in the ionic liquids were studied by density functional theory (DFT). For a qualitative picture of the Lewis structure the occupation of the non-Lewis orbitals was considered. The calculated interaction energies and the dipole moments for the ion-pairs in the gas phase have been discussed. In the last chapter, a different strategy to incorporate metals into ionic liquids was introduced. A lanthanide thiocyanate anion was synthesized and used as component for an ionic liquid. By using this anion in combination with a 1-butyl-3-methylimidazolium (C4mim) cation the first lanthanide-containing ionic liquids were obtained. These compounds have melting points ranging from 28 °C (Nd) to 39 °C (Y). The general formula for these compounds is [C4mim] status: published

Published

2007

257. Advancing mesoporous carbon synthesis for supercapacitors: a systematic investigation of cross-linking agent effects on pore structure and functionality.

Author

Song Y, Zhang X, Klusener PAA, and Nockemann P

Abstract

Soft-templating synthesis provides an effective route to prepare ordered mesoporous carbons (MCs) that can be used for supercapacitors. During this process, the cross-linking of carbon precursors is critical to obtain tailored pore structural MCs, thus careful selection of appropriate cross-linking agents is required. Despite the shift from the prevailing cross-linker formaldehyde to its more environmentally friendly alternatives, detailed understanding on the influence of different cross-linking agents on templating synthesis is still lacking. Therefore, it remains challenging to draw a conclusion regarding which cross-linker can effectively enable an ideal cross-linking and a robust templating synthesis of ordered MCs. This work presents a systematic study, by comparing three typical cross-linkers (formaldehyde, glyoxal, and glyoxylic acid), on the pore architecture, surface functionality, and electrochemical performance of resulting MCs. Both the type of cross-linker and its ratio with precursor monomer were found to be crucial for the pore architecture and electrochemical performance of resulting MCs. Glyoxal showed to be a promising cross-linker for easily generating ordered mesopores between 3.3-6.1 nm when the molar ratio between cross-linker and carbon precursor ranged from 1 to 2, whereas glyoxylic acid and formaldehyde induced interrupted or disordered mesopores. When the resulting MCs were used as supercapacitor electrodes, those cross-linked with glyoxal also led to overall higher capacitance in both 6 M KOH aqueous and ionic liquid [N 2220 ][NTf 2 ]/acetonitrile electrolytes thanks to the dominance of ordered mesopore channels, especially MC prepared at glyoxal/precursor molar ratio of 1.5. These findings on the effect of cross-linking on templating synthesis can be used to guide the customisation of MCs for supercapacitors and other applications by smartly choosing a suitable cross-linking agent and its ratio with the precursor.

Published

2023

258. Tuneable-by-design copper oxide nanoparticles in ionic liquid nanofluids.

Author

Boudie C, Maréchal M, Ah-Lung G, Jacquemin J, and Nockemann P

Abstract

In this study, copper oxide nanoparticles (CuO-NPs) were synthesised in an ionic liquid, [C 2 MIm][C n H n CO 2 ], and the respective copper(II) carboxylate precursors. Heating the solution to 120 °C caused a colour change from blue to red, indicating a change in copper salt coordination and nanoparticle formation. Crystallography and UV-Vis spectroscopy were used to monitor the transition upon temperature changes. The particle formation was characterised using TEM and SWAXS analyses. The results showed that different anion chain lengths led to different particle sizes. When using copper(II) acetate precursors, the transformation resulted in CuO(I,II) clusters (<1 nm), depending on the imidazolium-based cation used. However, using a copper(II) octanoate precursor, small CuO-NPs in the range of 10-25 nm were formed, while larger CuO-NPs were obtained using a copper(II) butanoate precursor in the range of 10-61 nm.

Published

2023

259. Ionic liquid-assisted synthesis of mesoporous polymers and carbon materials: the self-assembly mechanism.

Author

Song Y, Norris F, Hinchcliffe D, Xu Y, Zhang X, and Nockemann P

Abstract

Soft-templating synthesis has been widely employed to fabricate ordered mesoporous polymer and carbon materials with effectively tuneable pore sizes. However, the commonly used templating agents, block copolymers, are normally decomposed during the process, thus are barely recyclable; this increases the costs and hampers the scale-up feasibility. Therefore, it becomes imperative to seek promising alternatives; amphiphilic ionic liquids (ILs) are excellent candidates due to their good recyclability. This study explored the templating behaviour of IL templates for preparing mesoporous polymers and carbons. In details, the self-assembly of ternary systems (comprising of IL templates, precursors and solvent) were investigated by a combination of coarse-grained molecular dynamics (CGMD) simulations, density function theory (DFT) calculations and experimental techniques. The results indicate that the morphologies of IL templates are tuneable not only by the adjustment of water content in the mixture but also by the selection of suitable precursors. Material precursors containing increasing numbers of hydroxyl moieties also induce various precursor-template spatial correlations, resulting in different topological structures of nanomaterials. This work presents a fundamental investigation into the mechanisms of templating synthesis with amphiphilic ILs as recyclable templates and gives insight into the effective design of coveted carbon nanomaterials for targeted applications.

Published

2022

260. Taming Tris(bipyridine)ruthenium(II) and Its Reactions in Water by Capture/Release with Shape-Switchable Symmetry-Matched Cyclophanes.

Author

Yao C, Lin H, Daly B, Xu Y, Singh W, Gunaratne HQN, Browne WR, Bell SEJ, Nockemann P, Huang M, Kavanagh P, and de Silva AP

Subjects

2,2'-Dipyridyl chemistry, Water, Coordination Complexes chemistry, Heterocyclic Compounds, Ruthenium chemistry

Abstract

Electron/proton transfers in water proceeding from ground/excited states are the elementary reactions of chemistry. These reactions of an iconic class of molecules─polypyridineRu(II)─are now controlled by capturing or releasing three of them with hosts that are shape-switchable. Reversible erection or collapse of the host walls allows such switchability. Some reaction rates are suppressed by factors of up to 120 by inclusive binding of the metal complexes. This puts nanometric coordination chemistry in a box that can be open or shut as necessary. Such second-sphere complexation can allow considerable control to be exerted on photocatalysis, electrocatalysis, and luminescent sensing involving polypyridineRu(II) compounds. The capturing states of hosts are symmetry-matched to guests for selective binding and display submicromolar affinities. A perching complex, which is an intermediate state between capturing and releasing states, is also demonstrated.

Published

2022

261. Spectroscopic Signatures of Hydrogen-Bonding Motifs in Protonic Ionic Liquid Systems: Insights from Diethylammonium Nitrate in the Solid State.

Author

Vázquez-Fernández I, Drużbicki K, Fernandez-Alonso F, Mukhopadhyay S, Nockemann P, Parker SF, Rudić S, Stana SM, Tomkinson J, Yeadon DJ, Seddon KR, and Plechkova NV

Abstract

Diethylammonium nitrate, [N 0 0 2 2 ][NO 3 ], and its perdeuterated analogue, [N D D  2 2 ] [NO 3 ], were structurally characterized and studied by infrared, Raman, and inelastic neutron scattering (INS) spectroscopy. Using these experimental data along with state-of-the-art computational materials modeling, we report unambiguous spectroscopic signatures of hydrogen-bonding interactions between the two counterions. An exhaustive assignment of the spectral features observed with each technique has been provided, and a number of distinct modes related to NH···O dynamics have been identified. We put a particular emphasis on a detailed interpretation of the high-resolution, broadband INS experiments. In particular, the INS data highlight the importance of conformational degrees of freedom within the alkyl chains, a ubiquitous feature of ionic liquid (IL) systems. These findings also enable an in-depth physicochemical understanding of protonic IL systems, a first and necessary step to the tailoring of hydrogen-bonding networks in this important class of materials., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

262. Phosphonium Ionic Liquid-Infused Poly(vinyl chloride) Surfaces Possessing Potent Antifouling Properties.

Author

Wylie MP, Bell SEJ, Nockemann P, Bell R, and McCoy CP

Abstract

Microbial fouling is a costly issue, which impacts a wide range of industries, such as healthcare, food processing, and construction industries, and improved strategies to reduce the impact of fouling are urgently required. Slippery liquid-infused porous surfaces (SLIPSs) have recently been developed as a bioinspired approach to prevent antifouling. Here, we report the development of slippery, superhydrophilic surfaces by infusing roughened poly(vinyl chloride) (PVC) substrates with phosphonium ionic liquids (PILs). These surfaces were capable of reducing viable bacterial adherence by Staphylococcus aureus and Pseudomonas aeruginosa by >6 log 10 cfu mL -1 after 24 h under static conditions relative to control PVC. Furthermore, we report the potential of a series of asymmetric quaternary alkyl PILs with varying alkyl chain lengths (C 4 -C 18 ) and counteranions to act as antimicrobial agents against both Gram +ve and Gram -ve bacteria and illustrate their potential as antimicrobial alternatives to traditional fluorinated lubricants commonly used in the synthesis of SLIPSs., Competing Interests: The authors declare no competing financial interest., (Copyright © 2020 American Chemical Society.)

Published

2020

263. Molecular memory with downstream logic processing exemplified by switchable and self-indicating guest capture and release.

Author

Daly B, Moody TS, Huxley AJM, Yao C, Schazmann B, Alves-Areias A, Malone JF, Gunaratne HQN, Nockemann P, and de Silva AP

Subjects

Alcohols chemistry, Crystallography, X-Ray, Fluorescence, Ketones chemistry, Logic, Magnetic Resonance Spectroscopy, Oxidation-Reduction, Computers, Molecular, Models, Molecular

Abstract

Molecular-logic based computation (MLBC) has grown by accumulating many examples of combinational logic gates and a few sequential variants. In spite of many inspirations being available in biology, there are virtually no examples of MLBC in chemistry where sequential and combinational operations are integrated. Here we report a simple alcohol-ketone redox interconversion which switches a macrocycle between a large or small cavity, with erect aromatic walls which create a deep hydrophobic space or with collapsed walls respectively. Small aromatic guests can be captured or released in an all or none manner upon chemical command. During capture, the fluorescence of the alcohol macrocycle is quenched via fluorescent photoinduced electron transfer switching, meaning that its occupancy state is self-indicated. This represents a chemically-driven RS Flip-Flop, one of whose outputs is fed into an INHIBIT gate. Processing of outputs from memory stores is seen in the injection of packaged neurotransmitters into synaptic clefts for onward neural signalling. Overall, capture-release phenomena from discrete supermolecules now have a Boolean basis.

Published

2019

264. Water-Tolerant Trifloaluminate Ionic Liquids: New and Unique Lewis Acidic Catalysts for the Synthesis of Chromane.

Author

Latos P, Culkin A, Barteczko N, Boncel S, Jurczyk S, Brown LC, Nockemann P, Chrobok A, and Swadźba-Kwaśny M

Abstract

The first example of triflometallate ionic liquids, named in analogy to chlorometallate ionic liquids, is reported. Trifloaluminate ionic liquids, synthesized from 1-alkyl-3-methylimidazolium triflates and aluminum triflate, were characterized by multinuclear NMR spectroscopy and FT-IR spectroscopy, revealing the existence of oligonuclear, multiply-charged trifloaluminate anions, with multiple bridging triflate modes. Acceptor numbers were determined to quantify their Lewis acidity, rendering trifloaluminate ionic liquids as medium-strength Lewis acids (AN = ca . 65). Used as acidic catalysts in the cycloaddition of 2,4-dimethylphenol and isoprene (molar ratio 2:1) to prepare chromane, trifloaluminate systems outperformed literature systems, showing high activity (conversions 94-99%, selectivities 80-89%) and at low loadings (0.2 mol%) at 35°C. Using these new systems as supported ionic liquid phase (SILP) on multi-walled carbon nanotubes (ionic liquid loading 16 wt%) delivered a recyclable catalytic system, with activity enhanced with respect to the homogenous regime.

Published

2018

265. A Facile Green Synthetic Route for the Preparation of Highly Active γ-Al 2 O 3 from Aluminum Foil Waste.

Author

Osman AI, Abu-Dahrieh JK, McLaren M, Laffir F, Nockemann P, and Rooney D

Abstract

A novel green preparation route to prepare nano-mesoporous γ-Al 2 O 3 from AlCl 3 .6H 2 O derived from aluminum foil waste and designated as ACFL550 is demonstrated, which showed higher surface area, larger pore volume, stronger acidity and higher surface area compared to γ-Al 2 O 3 that is produced from the commercial AlCl 3 precursor, AC550. The produced crystalline AlCl 3 .6H 2 O and Al(NO 3 ) 3 .9H 2 O in the first stage of the preparation method were characterized by single-crystal XRD, giving two crystal structures, a trigonal (R-3c) and monoclinic (P2 1 /c) structure, respectively. EDX analysis showed that ACFL550 had half the chlorine content (Cl%) relative to AC550, which makes ACFL550 a promising catalyst in acid-catalysed reactions. Pure and modified ACFL550 and AC550 were applied in acid-catalysed reactions, the dehydration of methanol to dimethyl ether and the total methane oxidation reactions, respectively. It was found that ACFL550 showed higher catalytic activity than AC550. This work opens doors for the preparation of highly active and well-structured nano-mesoporous alumina catalysts/supports from aluminum foil waste and demonstrates its application in acid-catalysed reactions.

Published

2017

266. Total Synthesis of the GRP78-Downregulatory Macrolide (+)-Prunustatin A, the Immunosuppressant (+)-SW-163A, and a JBIR-04 Diastereoisomer That Confirms JBIR-04 Has Nonidentical Stereochemistry to (+)-Prunustatin A.

Author

Manaviazar S, Nockemann P, and Hale KJ

Subjects

Catalysis, Cyclization, Endoplasmic Reticulum Chaperone BiP, Stereoisomerism, Heat-Shock Proteins metabolism, Immunosuppressive Agents chemical synthesis, Macrolides chemical synthesis, Peptides, Cyclic chemical synthesis

Abstract

A unified total synthesis of the GRP78-downregulator (+)-prunustatin A and the immunosuppressant (+)-SW-163A based upon [1 + 1 + 1 + 1]-fragment condensation and macrolactonization between O(4) and C(5) is herein described. Sharpless asymmetric dihydroxylation was used to set the C(2) stereocenter present in both targets. In like fashion, coupling of the (+)-prunustatin A macrolide amine with benzoic acid furnished a JBIR-04 diastereoisomer whose NMR spectra did not match those of JBIR-04, thus confirming that it has different stereochemistry than (+)-prunustatin A.

Published

2016

267. 3-Methylpiperidinium ionic liquids.

Author

Belhocine T, Forsyth SA, Gunaratne HQ, Nieuwenhuyzen M, Nockemann P, Puga AV, Seddon KR, Srinivasan G, and Whiston K

Abstract

A wide range of room temperature ionic liquids based on the 3-methylpiperdinium cation core were produced from 3-methylpiperidine, which is a derivative of DYTEK® A amine. First, reaction with 1-bromoalkanes or 1-bromoalkoxyalkanes generated the corresponding tertiary amines (Rmβpip, R = alkyl or alkoxyalkyl); further quaternisation reactions with the appropriate methylating agents yielded the quaternary [Rmmβpip]X salts (X(-) = I(-), [CF3CO2](-) or [OTf](-); Tf = -SO2CF3), and [Rmmβpip][NTf2] were prepared by anion metathesis from the corresponding iodides. All [NTf2](-) salts are liquids at room temperature. [Rmmβpip]X (X(-) = I(-), [CF3CO2](-) or [OTf](-)) are low-melting solids when R = alkyl, but room temperature liquids upon introduction of ether functionalities on R. Neither of the 3-methylpiperdinium ionic liquids showed any signs of crystallisation, even well below 0 °C. Some related non-C-substituted piperidinium and pyrrolidinium analogues were prepared and studied for comparison. Crystal structures of 1-hexyl-1,3-dimethylpiperidinium tetraphenylborate, 1-butyl-3-methylpiperidinium bromide, 1-(2-methoxyethyl)-1-methylpiperidinium chloride and 1-(2-methoxyethyl)-1-methylpyrrolidinium bromide are reported. Extensive structural and physical data are collected and compared to literature data, with special emphasis on the systematic study of the cation ring size and/or asymmetry effects on density, viscosity and ionic conductivity, allowing general trends to be outlined. Cyclic voltammetry shows that 3-methylpiperidinium ionic liquids, similarly to azepanium, piperidinium or pyrrolidinium counterparts, are extremely electrochemically stable; the portfolio of useful alternatives for safe and high-performing electrolytes is thus greatly extended.

Published

2015

268. Pro-fragrant ionic liquids with stable hemiacetal motifs: water-triggered release of fragrances.

Author

Gunaratne HQ, Nockemann P, and Seddon KR

Abstract

Stable liquid and solid salts in the form of elusive hemiacetals, appended with fragrant alcohols, have been synthesised as pro-fragrances, and the controlled release of these fragrances, triggered by water, is demonstrated.

Published

2015

269. Electrical conductivity and glass formation in nitrile-functionalized pyrrolidinium bis(trifluoromethylsulfonyl)imide ionic liquids: chain length and odd-even effects of the alkyl spacer between the pyrrolidinium ring and the nitrile group.

Author

Leys J, Tripathi CS, Glorieux C, Zahn S, Kirchner B, Longuemart S, Lethesh KC, Nockemann P, Dehaen W, and Binnemans K

Abstract

The electrical conductivity of a series of pyrrolidinium bis(trifluoromethylsulfonyl)imide ionic liquids, functionalized with a nitrile (cyano) group at the end of an alkyl chain attached to the cation, was studied in the temperature range between 173 K and 393 K. The glass formation of the ionic liquids is influenced by the length of the alkyl spacer separating the nitrile function from the pyrrolidinium ring. The electrical conductivity and the viscosity do not show a monotonic dependence on the alkyl spacer length, but rather an odd-even effect. An explanation for this behavior is given, including the potential energy landscape picture for the glass transition.

Published

2014

270. Novel chiral ionic liquids: physicochemical properties and investigation of the internal rotameric behaviour in the neat system.

Author

Foreiter MB, Gunaratne HQ, Nockemann P, Seddon KR, and Srinivasan G

Abstract

Optically active S-alkyl-N,N'-bis((S)-1-phenylethyl)thiouronium salts, abbreviated as (S)-[C(n)petu]Y (where Y is an anion; n = 1, 2, 3, 4, 6, 8, 10, 12 or 16), have been prepared and studied by a broad spectrum of analyses. This consists of density, viscosity, and conductivity determination, followed by a discussion of relevant correlations. Unusual trends depending on the S-alkyl chain length were documented for (S)-[C(n)petu][NTf2] series (where [NTf2](-) = bis{(trifluoromethyl)sulfonyl}amide), including the viscosity decreasing with increasing chain length, and the conductivity showing a maximum between the S-butyl and the S-hexyl derivative. In addition, a hindered rotamerism of the thiouronium cation in dmso-d6 solution was recognised by (1)H and (13)C NMR techniques. Thorough analysis of NMR spectra confirmed that the main contribution comes from rotation about the partial double C-S bond. For the first time, a neat thiouronium ionic liquid system has been subjected to quantitative analysis of hindered rotamerism by dynamic NMR coalescence studies, with estimated activation energy for rotation of 63.9 ± 0.4 kJ mol(-1). Finally, the application of (S)-[C(n)petu]Y salts as chiral discriminating agents for carboxylates by (1)H NMR spectroscopy was further investigated, demonstrating the influence of the S-alkyl chain length on chiral recognition; (S)-[C2petu][NTf2] ionic liquid with the mandelate anion gave the best results.

Published

2014

271. Lead(II) chloride ionic liquids and organic/inorganic hybrid materials--a study of chloroplumbate(II) speciation.

Author

Coleman F, Feng G, Murphy RW, Nockemann P, Seddon KR, and Swadźba-Kwaśny M

Abstract

A range of chloroplumbate(II) organic salts, based on the two cations, 1-ethyl-3-methylimidazolium and trihexyl(tetradecyl)phosphonium, was prepared by ionothermal synthesis. Depending on the structure of the organic cation and on the molar ratio of PbCl2 in the product, χPbCl2, the salts were room-temperature ionic liquids or crystalline organic/inorganic hybrid materials. The solids were studied using Raman spectroscopy; the crystal structure of [C2mim]{PbCl3} was determined and shown to contain 1D infinite chloroplumbate(II) strands formed by edge-sharing tetragonal pyramids of pentacoordinate (PbCl5) units. The liquids were analysed using (207)Pb NMR and Raman spectroscopies, as well as viscometry. Phase diagrams were constructed based on differential scanning calorimetry (DSC) measurements. Discrete anions: [PbCl4](2-) and [PbCl3](-), were detected in the liquid state. The trichloroplumbate(II) anion was shown to have a flexible structure due to the presence of a stereochemically-active lone pair. The relationship between the liquid phase anionic speciation and the structure of the corresponding crystalline products of ionothermal syntheses was discussed, and the data were compared with analogous tin(II) systems.

Published

2013

272. Ruthenium(II) bis(terpyridine) electron transfer complexes with alkynyl-ferrocenyl bridges: synthesis, structures, and electrochemical and spectroscopic studies.

Author

Wu KQ, Guo J, Yan JF, Xie LL, Xu FB, Bai S, Nockemann P, and Yuan YF

Abstract

Two novel alkynyl-bridged symmetric bis-tridentate ligands 1,2-bis(1'-[4'-(2,2':6',2''-terpyridinyl)]ferrocenyl)ethyne (3a; tpy-Fc-C[triple bond]C-Fc-tpy; Fc = ferrocenyl; tpy = terpyridyl) and 1,4-bis(1'-[4'-(2,2':6',2''-terpyridinyl)]ferrocenyl)-1,3-butadiyne (3b; tpy-Fc-C[triple bond]C-C[triple bond]C-Fc-tpy) and their Ru(2+) complexes 6a and 6b have been synthesized and characterized by cyclic voltammetry, UV-vis and luminescence spectroscopy, and in the case of 3b by single-crystal X-ray diffraction. Cyclic voltammograms of both compounds, 3a and 3b, display two severely overlapping ferrocene-based oxidative peaks with only one reductive peak. The redox behavior of 6a and 6b is dominated by the Ru(2+)/Ru(3+) redox couple (E(1/2) from 1.33 to 1.34 V), the Fe(2+)/Fe(3+) redox couples (E(1/2) from 0.46 to 0.80 V), and the tpy/tpy(-)/tpy(2-) redox couples (E(1/2) from -1.19 to -1.48 V). The UV-vis spectra of 6a and 6b show absorption bands assigned to the (1)[(d(π)(Fe))(6)] → (1)[(d(π)(Fe))(5)(π*(tpy)(Ru))(1)] MMLCT transition at ~555 nm. Complexes and are luminescent in H(2)O-CH(3)CN (4 : 1, v/v) solution at room temperature, and 6b exhibits the strongest luminescence intensity (λ(max)(em): 710 nm, Φ(em): 2.28 × 10(-4), τ: 358 ns) relative to analogous ferrocene-based bis(terpyridine) Ru(II) complexes reported so far.

Published

2012

273. Phosphine oxide functionalised imidazolium ionic liquids as tuneable ligands for lanthanide complexation.

Author

Vicente JA, Mlonka A, Gunaratne HQ, Swadźba-Kwaśny M, and Nockemann P

Subjects

Ligands, Models, Molecular, Organometallic Compounds chemistry, Imidazoles chemistry, Ionic Liquids chemistry, Lanthanoid Series Elements chemistry, Organometallic Compounds chemical synthesis, Oxides chemistry, Phosphines chemistry

Abstract

A series of novel, phosphine oxide functionalised ionic liquids have been synthesised and their application as tuneable lanthanide complexing agents is demonstrated.

Published

2012

274. Facile in situ synthesis of nanofluids based on ionic liquids and copper oxide clusters and nanoparticles.

Author

Swadźba-Kwaśny M, Chancelier L, Ng S, Manyar HG, Hardacre C, and Nockemann P

Abstract

Two stable nanofluids comprising of mixed valent copper(I,II) oxide clusters (<1 nm) suspended in 1-butyl-3-methylimidazolium acetate, [C(4)mim][OAc], and copper(II) oxide nanoparticles (<50 nm) suspended in trioctyl(dodecyl)phosphonium acetate, [P(8 8 8 12)][OAc], were synthesised in a facile one-pot reaction from solutions of copper(II) acetate hydrate in the corresponding ionic liquids. Formation of the nanostructures was studied using (13)C NMR spectroscopy and differential scanning calorimetry (DSC). From a solution of Cu(OAc)(2) in 1-ethyl-3-methylimidazolium acetate, [C(2)mim][OAc], crystals were obtained that revealed the structure of [C(2)mim][Cu(3)(OAc)(5)(OH)(2)(H(2)O)]·H(2)O, indicating the formation of copper hydroxo-clusters in the course of the reaction. Synthesised nanostructures were studied using transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS). Physical properties of the prepared IL-nanofluids were examined using IR and UV-VIS spectroscopy, thermogravimetric analysis (TGA), differential scanning calorimetry (DSC) and densitometry.

Published

2012

275. Uranyl complexes of carboxyl-functionalized ionic liquids.

Author

Nockemann P, Van Deun R, Thijs B, Huys D, Vanecht E, Van Hecke K, Van Meervelt L, and Binnemans K

Abstract

Uranium(VI) oxide has been dissolved in three different ionic liquids functionalized with a carboxyl group: betainium bis[(trifluoromethyl)sulfonyl]imide, 1-(carboxymethyl)-3-methylimidazolium bis[(trifluoromethyl)sulfonyl]imide, and N-(carboxymethyl)-N-methylpyrrolidinium bis[(trifluoromethyl)sulfonyl]imide. The dissolution process results in the formation of uranyl complexes with zwitterionic carboxylate ligands and bis[(trifluoromethyl)sulfonyl]imide (bistriflimide) counterions. An X-ray diffraction study on single crystals of the uranyl complexes revealed that the crystal structure strongly depends on the cationic core appended to the carboxylate groups. The betainium ionic liquid gives a dimeric uranyl complex, the imidazolium ionic liquid a monomeric complex, and the pyrrolidinium ionic liquid a one-dimensional polymeric uranyl complex. Extended X-ray absorption fine structure measurements have been performed on the betainium uranyl complex. The absorption and luminescence spectra of the uranyl betainium complex have been studied in the solid state and dissolved in water, in acetonitrile, and in the ionic liquid betainium bistriflimide. The carboxylate groups remain coordinated to uranyl in acetonitrile and in betainium bistriflimide but not in water.

Published

2010

276. Cobalt(II) complexes of nitrile-functionalized ionic liquids.

Author

Nockemann P, Pellens M, Van Hecke K, Van Meervelt L, Wouters J, Thijs B, Vanecht E, Parac-Vogt TN, Mehdi H, Schaltin S, Fransaer J, Zahn S, Kirchner B, and Binnemans K

Abstract

A series of nitrile-functionalized ionic liquids were found to exhibit temperature-dependent miscibility (thermomorphism) with the lower alcohols. Their coordinating abilities toward cobalt(II) ions were investigated through the dissolution process of cobalt(II) bis(trifluoromethylsulfonyl)imide and were found to depend on the donor abilities of the nitrile group. The crystal structures of the cobalt(II) solvates [Co(C(1)C(1CN)Pyr)(2)(Tf(2)N)(4)] and [Co(C(1)C(2CN)Pyr)(6)][Tf(2)N](8), which were isolated from ionic-liquid solutions, gave an insight into the coordination chemistry of functionalized ionic liquids. Smooth layers of cobalt metal could be obtained by electrodeposition of the cobalt-containing ionic liquids.

Published

2010

277. Temperature-driven mixing-demixing behavior of binary mixtures of the ionic liquid choline bis(trifluoromethylsulfonyl)imide and water.

Author

Nockemann P, Binnemans K, Thijs B, Parac-Vogt TN, Merz K, Mudring AV, Menon PC, Rajesh RN, Cordoyiannis G, Thoen J, Leys J, and Glorieux C

Abstract

The ionic liquid (2-hydroxyethylammonium)trimethylammonium) bis(trifluoromethylsulfonyl)imide (choline bistriflimide) was obtained as a supercooled liquid at room temperature (melting point=30 degrees C). Crystals of choline bistriflimide suitable for structure determination were grown from the melt in situ on the X-ray diffractometer. The choline cation adopts a folded conformation, whereas the bistriflimide anion exhibits a transoid conformation. The choline cation and the bistriflimide anion are held together by hydrogen bonds between the hydroxyl proton and a sulfonyl oxygen atom. This hydrogen bonding is of importance for the temperature-dependent solubility properties of the ionic liquid. Choline bistriflimide is not miscible with water at room temperature, but forms one phase with water at temperatures above 72 degrees C (equals upper critical solution temperature). 1H NMR studies show that the hydrogen bonds between the choline cation and the bistriflimide anion are substantially weakened above this temperature. The thermophysical properties of water-choline bistriflimide binary mixtures were furthermore studied by a photopyroelectric technique and by adiabatic scanning calorimetry (ASC). By photothermal analysis, besides highly accurate values for the thermal conductivity and effusivity of choline bistriflimide at 30 degrees C, the detailed temperature dependence of both the thermal conductivity and effusivity of the upper and lower part of a critical water-choline bistriflimide mixture in the neighborhood of the mixing-demixing phase transition could be determined with high resolution and accuracy. Together with high resolution ASC data for the heat capacity, experimental values were obtained for the critical exponents alpha and beta, and for the critical amplitude ratio G+/G-. These three values were found to be consistent with theoretical expectations for a three dimensional Ising-type of critical behavior of binary liquid mixtures.

Published

2009

278. Speciation of rare-earth metal complexes in ionic liquids: a multiple-technique approach.

Author

Nockemann P, Thijs B, Lunstroot K, Parac-Vogt TN, Görller-Walrand C, Binnemans K, Van Hecke K, Van Meervelt L, Nikitenko S, Daniels J, Hennig C, and Van Deun R

Abstract

The dissolution process of metal complexes in ionic liquids was investigated by a multiple-technique approach to reveal the solvate species of the metal in solution. The task-specific ionic liquid betainium bis(trifluoromethylsulfonyl)imide ([Hbet][Tf(2)N]) is able to dissolve stoichiometric amounts of the oxides of the rare-earth elements. The crystal structures of the compounds [Eu(2)(bet)(8)(H(2)O)(4)][Tf(2)N](6), [Eu(2)(bet)(8)(H(2)O)(2)][Tf(2)N](6) x 2 H(2)O, and [Y(2)(bet)(6)(H(2)O)(4)][Tf(2)N](6) were found to consist of dimers. These rare-earth complexes are well soluble in the ionic liquids [Hbet][Tf(2)N] and [C(4)mim][Tf(2)N] (C(4)mim = 1-butyl-3-methylimidazolium). The speciation of the metal complexes after dissolution in these ionic liquids was investigated by luminescence spectroscopy, (1)H, (13)C, and (89)Y NMR spectroscopy, and by the synchrotron techniques EXAFS (extended X-ray absorption fine structure) and HEXS (high-energy X-ray scattering). The combination of these complementary analytical techniques reveals that the cationic dimers decompose into monomers after dissolution of the complexes in the ionic liquids. Deeper insight into the solution processes of metal compounds is desirable for applications of ionic liquids in the field of electrochemistry, catalysis, and materials chemistry.

Published

2009

279. Pyrrolidinium ionic liquid crystals.

Author

Goossens K, Lava K, Nockemann P, Van Hecke K, Van Meervelt L, Driesen K, Görller-Walrand C, Binnemans K, and Cardinaels T

Abstract

N-alkyl-N-methylpyrrolidinium cations have been used for the design of ionic liquid crystals, including a new type of uranium-containing metallomesogen. Pyrrolidinium salts with bromide, bis(trifluoromethylsulfonyl)imide, tetrafluoroborate, hexafluorophosphate, thiocyanate, tetrakis(2- thenoyltrifluoroacetonato)europate(III) and tetrabromouranyl counteranions were prepared. For the bromide salts and tetrabromouranyl compounds, the chain length of the alkyl group C(n)H(2n+1) was varied from eight to twenty carbon atoms (n = 8, 10-20). The compounds show rich mesomorphic behaviour: highly ordered smectic phases (the crystal smectic E phase and the uncommon crystal smectic T phase), smectic A phases, and hexagonal columnar phases were observed, depending on chain length and anion. This work gives better insight into the nature and formation of the crystal smectic T phase, and the molecular requirements for the appearance of this highly ordered phase. This uncommon tetragonal mesophase is thoroughly discussed on the basis of detailed powder X-ray diffraction experiments and in relation to the existing literature. Structural models are proposed for self-assembly of the molecules within the smectic layers. In addition, the photophysical properties of the compounds containing a metal complex anion were investigated. For the uranium-containing mesogens, luminescence can be induced by dissolving them in an ionic liquid matrix. The europium-containing compound shows intense red photoluminescence with high colour purity.

Published

2009

280. Carboxyl-functionalized task-specific ionic liquids for solubilizing metal oxides.

Author

Nockemann P, Thijs B, Parac-Vogt TN, Van Hecke K, Van Meervelt L, Tinant B, Hartenbach I, Schleid T, Ngan VT, Nguyen MT, and Binnemans K

Abstract

Imidazolium, pyridinium, pyrrolidinium, piperidinium, morpholinium, and quaternary ammonium bis(trifluoromethylsulfonyl)imide salts were functionalized with a carboxyl group. These ionic liquids are useful for the selective dissolution of metal oxides and hydroxides. Although these hydrophobic ionic liquids are immiscible with water at room temperature, several of them form a single phase with water at elevated temperatures. Phase separation occurs upon cooling. This thermomorphic behavior has been investigated by (1)H NMR, and it was found that it can be attributed to the temperature-dependent hydration and hydrogen-bond formation of the ionic liquid components. The crystal structures of four ionic liquids and five metal complexes have been determined.

Published

2008

281. Tris(1-ethyl-3-methyl-imidazolium) hexa-bromidoeuropate(III).

Author

Pellens M, Thijs B, Van Hecke K, Van Meervelt L, Binnemans K, and Nockemann P

Abstract

The crystal structure of the title compound, (C(6)H(11)N(2))(3)[EuBr(6)], consists of 1-ethyl-3-methyl-imidazolium cations and centrosymmetric octa-hedral hexa-bromido-europate anions. The [EuBr(6)](3-) anions are located at the corners and face-centres of the monoclinic unit cell. Characteristic hydrogen-bonding inter-actions can be observed between the bromide anions and the acidic H atoms of the imidazolium cations.

Published

2008

282. YF[MoO4] and YCl[MoO4]: two halide derivatives of yttrium ortho-oxomolybdate: syntheses, structures, and luminescence properties.

Author

Schleid T, Strobel S, Dorhout PK, Nockemann P, Binnemans K, and Hartenbach I

Abstract

The halide derivatives of yttrium ortho-oxomolybdate YX[MoO 4] (X = F, Cl) both crystallize in the monoclinic system with four formula units per unit cell. YF[MoO 4] exhibits a primitive cell setting (space group P21/ c; a = 519.62(2) pm, b = 1225.14(7) pm, c = 663.30(3) pm, beta = 112.851(4) degrees ), whereas the lattice of YCl[MoO 4] shows face-centering (space group C2/m; a = 1019.02(5) pm, b = 720.67(4) pm, c = 681.50(3) pm, beta = 107.130(4) degrees ). The two compounds each contain crystallographically unique Y (3+) cations, which are found to have a coordination environment of six oxide and two halide anions. In the case of YF[MoO 4], the coordination environment is seen as square antiprisms, and for YCl[MoO 4], trigon-dodecahedra are found. The discrete tetrahedral [MoO 4] (2-) units of the fluoride derivative are exclusively bound by six terminal Y (3+) cations, while those of the chloride compound show a 5-fold coordination around the tetrahedra with one edge-bridging and four terminal Y (3+) cations. The halide anions in each compound exhibit a coordination number of two, building up isolated planar rhombus-shaped units according to [Y 2F 2] (4+) in YF[MoO 4] and [Y 2Cl 2] (4+) in YCl[MoO 4], respectively. Both compounds were synthesized at high temperatures using Y2O3, MoO3, and the corresponding yttrium trihalide in a molar ratio of 1:3:1. Single crystals of both are insensitive to moist air and are found to be coarse shaped and colorless with optical band gaps situated in the near UV around 3.78 eV for the fluoride and 3.82 eV for the chloride derivative. Furthermore, YF[MoO 4] seems to be a suitable material for doping to obtain luminescent materials because the Eu (3+)-doped compound shows an intense red luminescence, which has been spectroscopically investigated.

Published

2008

283. Speciation of uranyl complexes in ionic liquids by optical spectroscopy.

Author

Nockemann P, Servaes K, Van Deun R, Van Hecke K, Van Meervelt L, Binnemans K, and Görller-Walrand C

Abstract

Uranyl complexes dissolved in room-temperature ionic liquids have diagnostic absorption and emission spectra which reflect the molecular symmetry and geometry. In particular, the characteristic vibrational fine structure of the absorption spectra allows identification of the molecular symmetry of a uranyl complex. The concept of speciation of uranyl complexes is illustrated for the hydrated uranyl ion, the tetrachloro complex [UO2Cl4]2-, the trinitrato complex [UO2(NO3)3]-, the triacetato complex [UO2(CH3COO)3]-, and the crown ether complex [UO2(18-crown-6)]2+ in imidazolium and pyrrolidinium bis(trifluoromethylsulfonyl)imide ionic liquids. The competition between 18-crown-6 and small inorganic ligands for coordination to the uranyl ion was investigated. The crystal structures of the hydrolysis product [(UO2)2(mu2-OH)2(H2O)6] [UO2Br4](18-crown-6)4 and imidazolium salt [C6mim]2[UO2Br4] are described.

Published

2007

284. Choline saccharinate and choline acesulfamate: ionic liquids with low toxicities.

Author

Nockemann P, Thijs B, Driesen K, Janssen CR, Van Hecke K, Van Meervelt L, Kossmann S, Kirchner B, and Binnemans K

Abstract

Choline saccharinate and choline acesulfamate are two examples of hydrophilic ionic liquids, which can be prepared from easily available starting materials (choline chloride and a non-nutritive sweetener). The (eco)toxicity of these ionic liquids in aqueous solution is very low in comparison to other types of ionic liquids. A general method for the synthesis and purification of hydrophilic ionic liquids is presented. The method consists of a silver-free metathesis reaction, followed by purification of the ionic liquid by ion-exchange chromatography. The crystal structures show a marked difference in hydrogen bonding between the two ionic liquids, although the saccharinate and the acesulfamate anions show structural similarities. The optimized structures, the energetics, and the charge distribution of cation-anion pairs in the ionic liquids were studied by density functional theory (DFT) and second-order (Møller-Plesset) perturbation theory calculations. The occupation of the non-Lewis orbitals was considered to obtain a qualitative picture of the Lewis structures. The calculated interaction energies and the dipole moments for the ion pairs in the gas phase were discussed.

Published

2007

285. Fully fluorinated imidodiphosphinate shells for visible- and NIR-emitting lanthanides: hitherto unexpected effects of sensitizer fluorination on lanthanide emission properties.

Author

Glover PB, Bassett AP, Nockemann P, Kariuki BM, Van Deun R, and Pikramenou Z

Abstract

In this paper we demonstrate that the effect of aromatic C--F substitution in ligands does not always abide by conventional wisdom for ligand design to enhance sensitisation for visible lanthanide emission, in contrast with NIR emission for which the same effect coupled with shell formation leads to unprecedented long luminescence lifetimes. We have chosen an imidodiphosphinate ligand, N-{P,P-di(pentafluorophinoyl)}-P,P-dipentafluorophenylphosphinimidic acid (HF20tpip), to form ideal fluorinated shells about all visible- and NIR-emitting lanthanides. The shell, formed by three ligands, comprises twelve fully fluorinated aryl sensitiser groups, yet no-high energy X--H vibrations that quench lanthanide emission. The synthesis, full characterisation including X-ray and NMR analysis as well as the photophysical properties of the emissive complexes [Ln(F20tpip)3], in which Ln=Nd, Sm, Eu, Gd, Tb, Dy, Er, Yb, Y, Gd, are reported. The photophysical results contrast previous studies, in which fluorination of alkyl chains tends to lead to more emissive lanthanide complexes for both visible and NIR emission. Analysis of the fluorescence properties of the HF20tpip and [Gd(F20tpip)3] reveals that there is a low-lying state at around 715 nm that is responsible for partially quenching of the signal of the visible emitting lanthanides and we attribute it to a pi-sigma* state. However, all visible emitting lanthanides have long lifetimes and unexpectedly the [Dy(F20tpip)3] complex shows a lifetime of 0.3 ms, indicating that the elimination of high-energy vibrations from the ligand framework is particularly favourable for Dy. The NIR emitting lanthanides show strong emission signals in powder and solution with unprecedented lifetimes. The luminescence lifetimes of [Nd(F20tpip)3], [Er(F20tpip)3] and [Yb(F20tpip)3] in deuteurated acetonitrile are 44, 741 and 1111 micros. The highest value observed for the [Yb(F20tpip)3] complex is more than half the value of the Yb ion radiative lifetime.

Published

2007

286. Task-specific ionic liquid for solubilizing metal oxides.

Author

Nockemann P, Thijs B, Pittois S, Thoen J, Glorieux C, Van Hecke K, Van Meervelt L, Kirchner B, and Binnemans K

Subjects

Conservation of Natural Resources, Hydrogen-Ion Concentration, Phase Transition, Solubility, Water, Ionic Liquids chemistry, Metals, Heavy chemistry, Oxides chemistry

Abstract

Protonated betaine bis(trifluoromethylsulfonyl)imide is an ionic liquid with the ability to dissolve large quantities of metal oxides. This metal-solubilizing power is selective. Soluble are oxides of the trivalent rare earths, uranium(VI) oxide, zinc(II) oxide, cadmium(II) oxide, mercury(II) oxide, nickel(II) oxide, copper(II) oxide, palladium(II) oxide, lead(II) oxide, manganese(II) oxide, and silver(I) oxide. Insoluble or very poorly soluble are iron(III), manganese(IV), and cobalt oxides, as well as aluminum oxide and silicon dioxide. The metals can be stripped from the ionic liquid by treatment of the ionic liquid with an acidic aqueous solution. After transfer of the metal ions to the aqueous phase, the ionic liquid can be recycled for reuse. Betainium bis(trifluoromethylsulfonyl)imide forms one phase with water at high temperatures, whereas phase separation occurs below 55.5 degrees C (temperature switch behavior). The mixtures of the ionic liquid with water also show a pH-dependent phase behavior: two phases occur at low pH, whereas one phase is present under neutral or alkaline conditions. The structures, the energetics, and the charge distribution of the betaine cation and the bis(trifluoromethylsulfonyl)imide anion, as well as the cation-anion pairs, were studied by density functional theory calculations.

Published

2006

287. Relaxometric study of copper [15]metallacrown-5 gadolinium complexes derived from alpha-aminohydroxamic acids.

Author

Parac-Vogt TN, Pacco A, Nockemann P, Laurent S, Muller RN, Wickleder M, Meyer G, Vander Elst L, and Binnemans K

Subjects

Magnetic Resonance Spectroscopy, Molecular Structure, Copper chemistry, Gadolinium chemistry, Hydroxamic Acids chemistry, Organometallic Compounds chemistry, Zinc chemistry

Abstract

Proton nuclear magnetic relaxation dispersion (NMRD) profiles were recorded between 0.24 mT and 1.4 T for lanthanum(III)- and gadolinium(III)-containing [15]metallacrown-5 complexes derived from alpha-aminohydroxamic acids and with copper(II) as the ring metal. The influence of the different R-groups on the proton relaxivity was investigated, and a linear relationship between the relaxivity and the molecular mass of the metallacrown complex was found. The selectivity of the metallacrown complexes was tested by transmetalation experiments with zinc(II) ions. The crystal structure of the copper [15]metallacrown-5 gadolinium complex with glycine hydroximate ligands is reported.

Published

2005

288. Photostability of a highly luminescent europium beta-diketonate complex in imidazolium ionic liquids.

Author

Nockemann P, Beurer E, Driesen K, Van Deun R, Van Hecke K, Van Meervelt L, and Binnemans K

Abstract

A high quantum yield and an enhanced photostability was found for a europium(III) tetrakis(2-thenoyltrifluoroacetonate) complex after dissolving the complex in a weakly-coordinating imidazolium ionic liquid.

Published

2005