E
Emma I. Rogers
Researcher at University of Oxford
Publications - 30
Citations - 1554
Emma I. Rogers is an academic researcher from University of Oxford. The author has contributed to research in topics: Ionic liquid & Voltammetry. The author has an hindex of 18, co-authored 30 publications receiving 1479 citations. Previous affiliations of Emma I. Rogers include Queen's University Belfast.
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Journal ArticleDOI
Voltammetry in Room Temperature Ionic Liquids: Comparisons and Contrasts with Conventional Electrochemical Solvents
Laura E. Barrosse-Antle,Alan M. Bond,Richard G. Compton,Aoife M. O'Mahony,Emma I. Rogers,Debbie S. Silvester +5 more
TL;DR: The recent literature is surveyed to explore the nature of voltammetry in room temperature ionic liquids and the extent of similarities with conventional electrochemical solvents is reported and some surprising differences are noted.
Journal ArticleDOI
Voltammetric Characterization of the Ferrocene|Ferrocenium and Cobaltocenium|Cobaltocene Redox Couples in RTILs
Emma I. Rogers,Debbie S. Silvester,Darren L. Poole,Leigh Aldous,Christopher Hardacre,Richard G. Compton +5 more
TL;DR: In this paper, the electrochemical behavior of Ferrocene, Fc, and cobaltocenium hexafluorophosphate, CcPF6, has been reported for use as internal reference redox couples in room-temperature ionic liquids.
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The Reduction of Oxygen in Various Room Temperature Ionic Liquids in the Temperature Range 293−318 K: Exploring the Applicability of the Stokes−Einstein Relationship in Room Temperature Ionic Liquids
TL;DR: In the six ionic liquids, the Stokes-Einstein relationship was found to apply only very approximately for oxygen, considered in relationship to the behavior of other diverse solutes in RTILs.
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The measurement of the diffusion coefficients of ferrocene and ferrocenium and their temperature dependence in acetonitrile using double potential step microdisk electrode chronoamperometry
TL;DR: In this article, the diffusion coefficients of both ferrocene and ferrocenium (Fc +) in acetonitrile containing 0.1 M tetra-n-butylammoniumperchlorate (TBAPF6) or 0. 1 M tetrasn-methanehexafluorophosphate (TBPF6), were determined using the technique of double potential step chronoamperometry at a microdisk electrode.
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Electrochemistry in Room-Temperature Ionic Liquids: Potential Windows at Mercury Electrodes
TL;DR: In this paper, the cathodic and anodic potential limits of eleven different ionic liquids were determined at a mercury hemisphere electrode, and it was shown that Ionic liquids containing the phosphonium cation (tri(n-hexyl)tetradecylphosphonium, [P14,6,6 6, 6,6]+) give the largest potential window, especially when coupled with a trifluorotris(pentafluoroethyl)phosphate, [FAP]−, or bis(triffluorometh