Research projects
| Project | Title | Researchers |
|---|---|---|
| ANION-001 | Coarse graining from ion hydration to transport | Nuriye van Lamoen |
| ANION-002 | 3D porous model systems for electrocatalysis | Harsh Wadhwani |
| ANION-003 | Nanoscale in-situ TEM electrochemistry of batteries and fuel cells | Hannah Dickinson |
| ANION-004 | Understanding electronics and structure in well-defined nanostructured electrodes | Stijn Feringa |
| ANION-005 | Understanding electronics and structure in planar electrodes and interfases | Luuk Kortekaas |
| ANION-006a | Probing ultra-fast processes and correlations in nanoelectrochemistry: exploiting the information contained in noise | Mikhail Elkhimov |
| ANION-006b | Probing ultra-fast processes and correlations in nanoelectrochemistry: bridging time scales with path sampling | Tanish Tyagi |
| ANION-007a | DFT and machine learning simulation of the electrode/electrolyte interface | Abhay Nagaraj |
| ANION-007b | Molecular-scale structure of the Stern layer near planar electrodes | Midhunkrishna Vazhoth |
| ANION-008a | Understanding the electrode-electrolyte interface in organic solvent: the case of electrochemical reduction of CO2 | Nina Chen |
| ANION-008b | Correlating electrode-electrolyte interface structure and electrochemical activity for the reduction of CO2 | Daphne Antony |
| ANION-010a | Charge distribution, ion adsorption, hydration: how the solid-electrolyte interface controls electrochemical activity | Paula Patón Camacho |
| ANION-010b | Charge distribution, ion adsorption, hydration: how the solid-electrolyte interface controls electrochemical activity | Rick Kort |
| ANION-011a | Resolving nano-scale electrochemistry using a graphene-window based approach for in situ XPS/XAS and non-destructive electron microscopy (ONEM) | Anna Strijevskaya |
| ANION-011b | Resolving nano-scale electrochemistry using a graphene-window based approach for in situ XPS/XAS and non-destructive electron microscopy (ONEM) | Esra Simsek |
| ANION-012 | Ion-specific effects and charging dynamics of the electric double layer: (high pressure) XPS and XAS at solid-liquid interfaces and in confined liquid films | Maximilian Jaugstetter |