| Author | Kottam, P. K. R. | dc.contributor.author |
| Author | Dongmo, S. | dc.contributor.author |
| Author | Wohlfahrt-Mehrens, M. | dc.contributor.author |
| Author | Marinaro, M. | dc.contributor.author |
| Date of accession | 2021-11-29T13:16:19Z | dc.date.accessioned |
| Available in OPARU since | 2021-11-29T13:16:19Z | dc.date.available |
| Date of first publication | 2020-03-20 | dc.date.issued |
| Abstract | The use of concentrated aprotic electrolytes in lithium batteries provides numerous potential applications, including the use of high-voltage cathodes and Li-metal anodes. In this paper, we aim at understanding the effect of salt concentration on the variation of the Li/Li+ Quasi-Reference Electrode (QRE) potential in Tetraglyme (TG)-based electrolytes. Comparing the obtained results to those achieved using Dimethyl sulfoxide DMSO-based electrolytes, we are now able to take a step forward and understand how the effect of solvent coordination and its donor number (DN) is attributed to the Li-QRE potential shift. Using a revised Nernst equation, the alteration of the Li redox potential with salt concentration was determined accurately. It is found that, in TG, the Li-QRE shift follows a different trend than in DMSO owing to the lower DN and expected shorter lifespan of the solvated cation complex. | dc.description.abstract |
| Language | en | dc.language.iso |
| Publisher | Universität Ulm | dc.publisher |
| License | CC BY 4.0 International | dc.rights |
| Link to license text | https://creativecommons.org/licenses/by/4.0/ | dc.rights.uri |
| Keyword | reference electrode | dc.subject |
| Keyword | high concentrated electrolytes | dc.subject |
| Keyword | Nernst equation | dc.subject |
| Keyword | cyclic voltammetry | dc.subject |
| Keyword | donor number | dc.subject |
| Dewey Decimal Group | DDC 540 / Chemistry & allied sciences | dc.subject.ddc |
| LCSH | Ferrocene | dc.subject.lcsh |
| Title | Effect of Salt Concentration, Solvent Donor Number and Coordination Structure on the Variation of the Li/Li+ Potential in Aprotic Electrolytes | dc.title |
| Resource type | Wissenschaftlicher Artikel | dc.type |
| SWORD Date | 2020-04-28T05:19:23Z | dc.date.updated |
| Version | publishedVersion | dc.description.version |
| DOI | http://dx.doi.org/10.18725/OPARU-40039 | dc.identifier.doi |
| URN | http://nbn-resolving.de/urn:nbn:de:bsz:289-oparu-40115-0 | dc.identifier.urn |
| GND | Lithium | dc.subject.gnd |
| GND | Ferrocen | dc.subject.gnd |
| Institution | Zentrum für Sonnenenergie- und Wasserstoff-Forschung Baden-Württemberg (ZSW) | uulm.affiliationSpecific |
| Peer review | ja | uulm.peerReview |
| DCMI Type | Text | uulm.typeDCMI |
| Category | Publikationen | uulm.category |
| DOI of original publication | 10.3390/en13061470 | dc.relation1.doi |
| Source - Title of source | Energies | source.title |
| Source - Place of publication | MDPI | source.publisher |
| Source - Volume | 13 | source.volume |
| Source - Issue | 6 | source.issue |
| Source - Year | 2020 | source.year |
| Source - Article number | 1470 | source.articleNumber |
| Source - eISSN | 1996-1073 | source.identifier.eissn |
| Bibliography | uulm | uulm.bibliographie |
