1. Fundamental relationships between 3D pore topology, electrolyte conduction and flow properties: Towards knowledge-based design of ceramic diaphragms for sensor applications. (5th June 2016) Authors: Holzer, L.; Stenzel, O.; Pecho, O.; Ott, T.; Boiger, G.; Gorbar, M.; de Hazan, Y.; Penner, D.; Schneider, I.; Cervera, R.; Gasser, P. Journal: Materials & design Issue: Volume 99(2016) Page Start: 314 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗
2. Fundamental relationships between 3D pore topology, electrolyte conduction and flow properties: Towards knowledge-based design of ceramic diaphragms for sensor applications. (5th June 2016) Authors: Holzer, L.; Stenzel, O.; Pecho, O.; Ott, T.; Boiger, G.; Gorbar, M.; de Hazan, Y.; Penner, D.; Schneider, I.; Cervera, R.; Gasser, P. Journal: Materials & design Issue: Volume 99(2016) Page Start: 314 Record Type: Journal Article View Content: Available online (eLD content is only available in our Reading Rooms) ↗