479.575 PEOPLE
| People | Locations | Statistics |
|---|---|---|
| Ziakopoulos, Apostolos | Athens |
|
| Vigliani, Alessandro | Turin |
|
| Catani, Jacopo | Rome |
|
| Statheros, Thomas | Stevenage |
|
| Utriainen, Roni | Tampere |
|
| Guglieri, Giorgio | Turin |
|
| Martínez Sánchez, Joaquín |
| |
| Tobolar, Jakub |
| |
| Volodarets, M. |
| |
| Piwowar, Piotr |
| |
| Tennoy, Aud | Oslo |
|
| Matos, Ana Rita |
| |
| Cicevic, Svetlana |
| |
| Sommer, Carsten | Kassel |
|
| Liu, Meiqi |
| |
| Pirdavani, Ali | Hasselt |
|
| Niklaß, Malte |
| |
| Lima, Pedro | Braga |
|
| Turunen, Anu W. |
| |
| Antunes, Carlos Henggeler |
| |
| Krasnov, Oleg A. |
| |
| Lopes, Joao P. |
| |
| Turan, Osman |
| |
| Lučanin, Vojkan | Belgrade |
|
| Tanaskovic, Jovan |
|
Nowak, Sascha
University of Münster
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications
- 2023Effective SEI Formation via Phosphazene‐Based Electrolyte Additives for Stabilizing Silicon‐Based Lithium‐Ion Batteriescitations
- 2023Insights into Electrolytic Pre‐Lithiation: A Thorough Analysis Using Silicon Thin Film Anodescitations
- 2022Suppressing Electrode Crosstalk and Prolonging Cycle Life in High-Voltage Li Ion Batteries: Pivotal Role of Fluorophosphates in Electrolytescitations
- 2022Understanding the Role of Commercial Separators and Their Reactivity toward LiPF6 on the Failure Mechanism of High-Voltage NCM523 || Graphite Lithium Ion Cellscitations
- 2021Case study of N-carboxyanhydrides in silicon-based lithium ion cells as a guideline for systematic electrolyte additive researchcitations
- 2021On the Beneficial Impact of Li2CO3 as Electrolyte Additive in NCM523 parallel to Graphite Lithium Ion Cells Under High-Voltage Conditionscitations
- 2021Re-evaluating common electrolyte additives for high-voltage lithium ion batteriescitations
- 2021Mechanistic Insights into the Pre‐Lithiation of Silicon/Graphite Negative Electrodes in “Dry State” and After Electrolyte Addition Using Passivated Lithium Metal Powdercitations
- 2020Novel In Situ Gas Formation Analysis Technique Using a Multilayer Pouch Bag Lithium Ion Cell Equipped with Gas Sampling Portcitations
- 2020Lithium ion battery electrolyte degradation of field-tested electric vehicle battery cells – A comprehensive analytical studycitations
- 2019Improving the Cycling Performance of High-Voltage NMC111 parallel to Graphite Lithium Ion Cells By an Effective Urea-Based Electrolyte Additivecitations
- 2019Einführung in die Umwidmung und Weiterverwendung von Traktionsbatterien
- 2016Nanostructured ZnFe2O4 as Anode Material for Lithium-Ion Batteries: Ionic Liquid-Assisted Synthesis and Performance Evaluation with Special Emphasis on Comparative Metal Dissolutioncitations
- 2015Investigation of the Storage Behavior of Shredded Lithium-Ion Batteries from Electric Vehicles for Recycling Purposescitations
- 2015Aging investigations of a lithium-ion battery electrolyte from a field-tested hybrid electric vehiclecitations
- 2014Dual-graphite cells based on the reversible intercalation of bis(trifluoromethanesulfonyl)imide anions from an ionic liquid electrolytecitations
Places of action
