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Journal ArticleDOI

Diffusion regimes at nanoelectrode ensembles in different ionic liquids

Paolo Ugo1, Ligia Maria Moretto1, Manuela De Leo1, Andrew Doherty2, Chiara Vallese1, Sreekanth Pentlavalli2 
Ca' Foscari University of Venice1, Queen's University Belfast2
01 Mar 2010-Electrochimica Acta (Pergamon)-Vol. 55, Iss: 8, pp 2865-2872
TL;DR: In this article, the electrochemical and diffusion behavior of different redox probes in different ionic liquids is studied at gold nanoelectrode ensembles (NEEs) in comparison with millimetre sized gold (Au-macro) and glassy carbon (GC) disk electrodes.
About: This article is published in Electrochimica Acta.The article was published on 2010-03-01 and is currently open access. It has received 34 citations till now. The article focuses on the topics: Diffusion & Ionic liquid.

Summary (2 min read)

Jump to: [2.1. Apparatus and procedures][2.3. Chemicals][3.1. GC-macro][3.2. Au-macro][3.3. Voltammetry with NEEs] and [4. Conclusions]

2.1. Apparatus and procedures

  • Voltammetric measurements were performed with a CH660A apparatus controlled via PC, using IR-drop compensation.
  • All electroanalytical measurements were carried out in a three-electrodes cell of small volume (5 mL).
  • ILs were dried overnight in a vacuum oven at 40 C before use, after treatment with activated molecular sieves.
  • It was previously demonstrated that this procedure is able to remove trace water from hygroscopic IL such as [BMIm][BF 4 ] [38] .
  • All measurements were performed at room temperature (20 ± 1 C), operating under a nitrogen atmosphere; the purging gas fluxed trough traps loaded with concentrated sulphuric acid, in order to prevent eventual entrance into the cell of humidity from the room environment.

2.3. Chemicals

  • [BMIm], [BMPy] and [P 14,666 ] ionic liquids were prepare by ion metathesis reaction of their chloride salts with either NaN(CN) 2 or LiN(Tf) 2 in dichloromethane (DCM) solvent.
  • The procedure involves firstly dissolving the quaternary ammonium or phosphonium cation salt in DCM followed by the addition of 1.2 equivalents of the anion salt.
  • The DCM solution of the crude ionic liquid was washed (5×) with deionised water.
  • Activated carbon was then added to the ionic liquid and stirred for 24 h.
  • All other reagents were of analytical grade and used as received.

3.1. GC-macro

  • In any case, the cross-comparison of their D values, all measured with the same procedure, indicates that the diffusion coefficients of the ionic derivatives are smaller than those of neutral ferrocene.
  • This suggests the occurrence of a stronger interaction of the ILs with the ionic ferrocenes.
  • In ILs, the lowering of diffusion coefficients for ionic species with respect to their neutral analogues is indeed documented in the literature [11, 12] .
  • Compton et al. demonstrated [45] , that the D value for neutral ferrocene is much larger than D for the ferricinium cation, the same holding also for the cobaltocene/cobalticinium couple.
  • A comparable unequality in diffusion coefficients of the butylviologen dication vs. the mono-cationic radical was reported to be the cause of differences in reduction peak currents for the two species in [BMIm][BF 4 ] [15].

3.2. Au-macro

  • In the following part of this research the authors were interested in investigating mainly the role of the solvent on the diffusion of the analyte to the nanoelectrodes, therefore they chose to avoid any complication by adsorption or other non-diffusion controlled processes by focusing their attention on the behaviour of ferrocene and its derivatives in the [N(Tf) 2 ] containing ILs.
  • At low scan rates peak shaped voltammograms are recorded which become sigmoidally shaped at higher scan rates, however with a shift detectable between the forward and backward patterns.
  • On the basis of recent reports [26] , the CV shape observed at high scan rates could be considered typical of the mixed diffusion layers regime, which is observed when there is a partial overlapping of individual diffusion layers.
  • Even the contribution of the double-layer charging current (I c ) cannot be neglected, since such a capacitive current can also be responsible for the lack of overlap between the forward and backward voltammetric patterns.
  • Note that in IL double-layer charging currents are significantly higher than that in water.

3.3. Voltammetry with NEEs

  • Further studies were performed focusing on the CV behaviour on NEEs of the ionic probes FcCOO − or FA + in the ILs.
  • As shown for instance in Fig. 7 for the typical case of 1 mM FcCOO − in [BmPy][N(Tf) 2 ], both the shape of the CV (Fig. 7A ) as well as the scarce scan rate dependence of I max (Fig. 7B ) indicate that crosstalking between the nanoelectrodes is dramatically reduced for any of the scan rates explored.

4. Conclusions

  • Finally, gold is not the electrode material of choice for measurements under diffusion control in [N(CN) 2 ] containing ILs, since this anion favours the adsorption of electroactive redox molecules on the electrode surface.
  • No such problem was found in [NTf 2 ] containing ILs while at GC electrodes diffusion controlled processes are observed both in the presence of [N(CN) 2 ] and [NTf 2 ].

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Citations
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Journal ArticleDOI
A Sensitive Electrochemiluminescence Immunosensor for Celiac Disease Diagnosis Based on Nanoelectrode Ensembles

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Henok Baye Habtamu1, Milica Sentic2, Milica Sentic1, Morena Silvestrini, Luigina De Leo3, Tarcisio Not3, Stéphane Arbault1, Dragan Manojlović2, Neso Sojic1, Paolo Ugo 
University of Bordeaux1, University of Belgrade2, University of Trieste3
24 Nov 2015-Analytical Chemistry
TL;DR: The design of a novel immunosensor and its application for celiac disease diagnosis, based on an electrogenerated chemiluminescence (ECL) readout, using membrane-templated gold nanoelectrode ensembles (NEEs) as a detection platform, showing to be suitable to discriminate between healthy and celiac patients.
Abstract: We report here the design of a novel immunosensor and its application for celiac disease diagnosis, based on an electrogenerated chemiluminescence (ECL) readout, using membrane-templated gold nanoelectrode ensembles (NEEs) as a detection platform. An original sensing strategy is presented by segregating spatially the initial electrochemical reaction and the location of the immobilized biomolecules where ECL is finally emitted. The recognition scaffold is the following: tissue transglutaminase (tTG) is immobilized as a capturing agent on the polycarbonate (PC) surface of the track-etched templating membrane. It captures the target tissue transglutaminase antibody (anti-tTG), and finally allows the immobilization of a streptavidin-modified ruthenium-based ECL label via reaction with a suitable biotinylated secondary antibody. The application of an oxidizing potential in a tri-n-propylamine (TPrA) solution generates an intense and sharp ECL signal, suitable for analytical purposes. Voltammetric and ECL analy...

60 citations

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Ag nanoparticles anchored onto porous CuO nanobelts for the ultrasensitive electrochemical detection of dopamine in human serum

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Yong-Yu Li1, Yong-Yu Li2, Ping Kang1, Shiqi Wang1, Zhang-Gang Liu1, Yi-Xiang Li2, Zheng Guo1, Zheng Guo2 
Anhui University1, Chinese Academy of Sciences2
15 Jan 2021-Sensors and Actuators B-chemical
TL;DR: In this article, an electrochemical sensor based on Ag nanoparticles anchored onto CuO porous nanobelts (Ag/CuO PNBs) was constructed for the ultrasensitive determination of dopamine (DA), which was prepared via a facile two-step cation-exchange reaction followed by in-situ thermal conversion.
Abstract: The potential capability to rapid, highly sensitive, and selective diagnose neurotransmitters in human serum environment is extremely crucial for clinical biology. Herein an electrochemical sensor based on Ag nanoparticles anchored onto CuO porous nanobelts (Ag/CuO PNBs) was constructed for the ultrasensitive determination of dopamine (DA), which was prepared via a facile two-step cation-exchange reaction followed by in-situ thermal conversion. The Ag/CuO PNBs exhibited an excellent electrochemical sensing performance to DA. The linear range for the detection of DA was ranged from 0.04 to 10 μM with an outstanding detection limit of 7.0 nM. Cyclic voltammograms (CVs) were employed to investigate kinetic information of multiphase electron transfer reactions, revealing that Ag nanoparticles significantly enhanced electrocatalytic activity toward DA owing to the participation of Ag(0)/Ag(I) cycle. Meanwhile, the Ag/CuO PNBs showed the significant selectivity, remarkable stability and repeatability, as well as attractive reproducibility (RSD ≤ 3.7 %). Furthermore, the practicality of the developed sensor has been evaluated by analyzing DA in serum-containing electrolyte, and the recovery in the range of 95.7∼111.1 % was obtained. The results confirmed that the as-prepared sensor presented a significant promise for the detection of DA in real sample analysis.

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Journal ArticleDOI
Sensitive and anti-interference stripping voltammetry analysis of Pb(II) in water using flower-like MoS2/rGO composite with ultra-thin nanosheets.

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Yufeng Sun1, Jian-Hua Sun1, Jian Wang1, Zong-Xin Pi2, Lian-Chao Wang3, Meng Yang4, Xing-Jiu Huang4, Xing-Jiu Huang1 
Anhui Polytechnic University1, Hefei Normal University2, Hefei University of Technology3, Chinese Academy of Sciences4
31 Jul 2019-Analytica Chimica Acta
TL;DR: A sensitive and anti-interference electrochemical sensing interface for the analysis of Pb(II) was constructed by using MoS2/rGO nanocomposite modified glassy carbon electrode (MoS2 /rGO-GCE), and experiments indicated that the proposed method has good stability and reproducibility.

47 citations

Journal ArticleDOI
Highly sensitive electrochemical detection of Pb(II) based on excellent adsorption and surface Ni(II)/Ni(III) cycle of porous flower-like NiO/rGO nanocomposite

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Yufeng Sun1, Jian-Wang1, Pei-Hua Li2, Meng Yang2, Xing-Jiu Huang2 
Anhui Polytechnic University1, Chinese Academy of Sciences2
01 Aug 2019-Sensors and Actuators B-chemical
TL;DR: In this article, a porous flower-like NiO/rGO nanocomposite modified glassy carbon electrode (GCE) was used for detecting Pb(II) in real water samples from Taochong wastewater treatment plant in Hefei city.
Abstract: Herein, combining the good catalysis of NiO with high adsorption and conductivity of reduced graphene oxide (rGO), the electrochemical sensing interface was constructed using the porous flower-like NiO/rGO nanocomposite modified glassy carbon electrode (GCE). The result of Pb(II) detection was obtained with high sensitivity of 92.81 μM μA−1 and low detection limit of 0.01 μM by square wave anodic stripping voltammetry (SWASV). The reasonable sensitive mechanism for enhancing electrochemical performance is that the excellent adsorption capacity and Ni(II)/Ni(III) cycle on surface of NiO/rGO nanocomposite could improve the electrochemical detection signal. Furthermore, the proposed method achieved the high anti-interference on the determination of Pb(II) in the co-existence of Cd(II), Cu(II), Hg(II). The excellent stability and reproducibility were also confirmed by repeatedly test. In addition, the concentration of Pb(II) in real water samples from Taochong wastewater treatment plant in Hefei city were analyzed and calculated accurately. These results indicates that the NiO/rGO nanocomposite as a promising electrode modifier could be potentially applied in electrochemical sensor for detecting Pb(II).

47 citations

Journal ArticleDOI
Bioelectroanalysis with nanoelectrode ensembles and arrays

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Michael Ongaro, Paolo Ugo
01 Apr 2013-Analytical and Bioanalytical Chemistry
TL;DR: This review deals with recent advances in bioelectroanalytical applications of nanostructured electrodes, in particular nanoelectrode ensembles (NEEs) and arrays (NEAs), and nanofabrication techniques, principles of function, and specific advantages and limits of NEEs and NEAs.
Abstract: This review deals with recent advances in bioelectroanalytical applications of nanostructured electrodes, in particular nanoelectrode ensembles (NEEs) and arrays (NEAs). First, nanofabrication techniques, principles of function, and specific advantages and limits of NEEs and NEAs are critically discussed. In the second part, some recent examples of bioelectroanalytical applications are presented. These include use of nanoelectrode arrays and/or ensembles for direct electrochemical analysis of pharmacologically active organic compounds or redox proteins, and the development of functionalized nanoelectrode systems and their use as catalytic or affinity electrochemical biosensors.

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Cites background from "Diffusion regimes at nanoelectrode ..."

  • ...[67]) Bioelectroanalysis with nanoelectrode arrays 3721...

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  • ...It has recently been shown that, for NEE, transition from the total overlap to the pure radial diffusion can be observed on increasing electrolyte viscosity [67]....

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References
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Dicyanamide anion based ionic liquids for electrodeposition of metals

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Ming-Jay Deng1, Po-Yu Chen2, Tin Iao Leong1, I-Wen Sun1, Jeng Kuei Chang1, Wen-Ta Tsai1 
National Cheng Kung University1, Kaohsiung Medical University2
01 Feb 2008-Electrochemistry Communications
TL;DR: In this article, the DCA-based room-temperature ionic liquids (ILs) exhibit lower viscosities than those ILs based on BF 4 -, PF 6 -, and bis(trifluoromethylsulfonyl)imide (TFSI) anions.

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Reference potential calibration and voltammetry at macrodisk electrodes of metallocene derivatives in the ionic liquid [bmim][PF6].

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Victoria M Hultgren1, Andrew W A Mariotti2, Alan M. Bond2, Anthony G. Wedd2
Monash University1, University of Melbourne2
01 Jun 2002-Analytical Chemistry
TL;DR: Solid-state voltammetry provided well-defined, reversible one-electron oxidation processes that had the appearance of being diffusion controlled, with charge neutralization occurring via the ionic liquid.
Abstract: Reference potential scales are not generally available in ionic liquids. Consequently, comparison of data with those obtained in conventional solvent (electrolyte) media is not possible. The process [Co(Cp)2]+/0 (Co(Cp)2 = cobaltocene) has been studied at gold, glassy carbon and platinum macrodisk electrodes to test the feasibility of using this redox couple as a voltammetric reference standard in the ionic liquid 1-n-butyl-3-methylimidazolium hexafluorophosphate ([bmim][PF6]). A reversible, one-electron reduction process was observed, and the measured reversible potential versus a silver quasi-reference electrode was independent of the working electrode material, the concentration, and the scan rate. Ferrocene, the other traditionally used reference compound, is poorly soluble in this ionic liquid. However, the solution-phase voltammetry of ethylferrocene could be readily studied in [bmim][PF6], and a reversible oxidation process was observed. A reversible potential of +1285 ± 5 mV versus the [Co(Cp)2]+/...

150 citations

Journal ArticleDOI
A comparative electrochemical study of diffusion in room temperature ionic liquid solvents versus acetonitrile.

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Russell G. Evans1, Oleksiy V. Klymenko1, Paul D. Price2, Stephen G. Davies2, Christopher Hardacre3, Richard G. Compton1 
University of Oxford1, Mansfield University of Pennsylvania2, Queen's University Belfast3
11 Mar 2005-ChemPhysChem
TL;DR: The variation of diffusion coefficient with temperature was found to occur in an Arrhenius-type manner for all combinations of solute and solvent, and for a given ionic liquid, the diffusional activation energies of each species were not only closely equivalent to each other, but also to the RTIL's activation energy of viscous flow.
Abstract: Measurements on the diffusion coefficient of the neutral molecule N,N,N',N'-tetramethyl-para-phenylenediamine and the radical cation and dication generated by its one- and two-electron oxidation, respectively, are reported over the range 298-348 K in both acetonitrile and four room temperature ionic liquids (RTILs). Data were collected using single and double potential step chronoamperometry at a gold disk electrode of micrometer dimension, and analysed via fitting to the appropriate analytical expression or, where necessary, to simulation. The variation of diffusion coefficient with temperature was found to occur in an Arrhenius-type manner for all combinations of solute and solvent. For a given ionic liquid, the diffusional activation energies of each species were not only closely equivalent to each other, but also to the RTIL's activation energy of viscous flow. In acetonitrile supported with 0.1 M tetrabutylammonium perchlorate, the ratio in diffusion coefficients of the radical cation and dication to the neutral molecule were calculated as 0.89 +/- 0.05 and 0.51 +/- 0.03, respectively. In contrast, amongst the ionic liquids the same ratios were determined to be on average 0.53 +/- 0.04 and 0.33 +/- 0.03. The consequences of this dissimilarity are considered in terms of the modelling of voltammetric data gathered within ionic liquid solvents.

131 citations

Journal ArticleDOI
Cyclic voltammograms at coplanar and shallow recessed microdisk electrode arrays: guidelines for design and experiment.

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Jidong Guo1, Ernö Lindner1
University of Memphis1
01 Jan 2009-Analytical Chemistry
TL;DR: With the aim of formulating generally applicable guidelines for design and experiment with MEAs, cyclic voltammograms were simulated for coplanar and shallow recessed microdisk electrode arrays with various interelectrode distances and dimensionless scan rates.
Abstract: Although microdisk electrode arrays (MEAs) have been extensively used for more than three decades, the existing rules do not provide an unambiguous formula for the calculation of the minimum interelectrode distance (d) necessary for steady-state current response. With the aim of formulating generally applicable guidelines for design and experiment with MEAs, cyclic voltammograms were simulated for coplanar and shallow recessed microdisk electrode arrays with various interelectrode distances and dimensionless scan rates (V). The dimensionless scan rate (V) is a function of the radius (a) of the individual electrodes in the array, the diffusion coefficient (D) of the analyte, and the potential scan rate (v). The cyclic voltammograms at microdisk electrode arrays are grouped into five categories corresponding to the contributions of linear and radial diffusion to the overall responses. These categories are illustrated in a zone diagram based on the effect of V and d on the shape of cyclic voltammograms. The ...

127 citations

Journal ArticleDOI
Oxidation of N,N,N′,N′-tetraalkyl-para-phenylenediamines in a series of room temperature ionic liquids incorporating the bis(trifluoromethylsulfonyl)imide anion

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Russell G. Evans1, Oleksiy V. Klymenko1, Christopher Hardacre2, Kenneth R. Seddon2, Richard G. Compton1 
University of Oxford1, Queen's University Belfast2
30 Sep 2003-Journal of Electroanalytical Chemistry
TL;DR: In this paper, the authors investigated the electrochemical oxidation of five room temperature ionic liquids: 1-alkyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([CnMIM][N(Tf)2], n=2, 4, 8, 10) and n-hexyltriethylammonium bis (triffluoromethsulfonyll)imides ([N6222]

124 citations

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Frequently Asked Questions (1)
Q1. What have the authors contributed in "Iffusion regimes at nanoelectrode ensembles in different ionic liquids" ?

The electrochemical and diffusion behaviour of different redox probes in different ionic liquids is studied at gold nanoelectrode ensembles ( NEEs ) in comparison with millimetre sized gold ( Au-macro ) and glassy carbon ( GC ) disk electrodes. The ILs are the dicyanamide, [ N ( CN ) 2 ] or bis ( trifluoromethylsulfonyl ) amide ), [ N ( Tf ) 2 ] salts of the following cations: 1-butyl-3-methylimidazolium, [ BMIm ], 1-butyl-3-methylpyrrolidonium, [ BMPy ], or tris ( nhexyl ) tetradecylphosphonium [ P14,666 ]. For this reason the diffusion at gold NEEs is studied only in the former ILs.