The lithium-ion technology is used in mobile phones, smart-phones, notebooks, tablets and increasingly also in automotive applications. Not least because of the present energy revolution and all resulting challenges, growing environmental awareness and an increasing electrification in all technical fields, the safe storage of energy is increasingly gaining significance.
F. Steger, A. Nitsche, H.-G. Schweiger, I. Belski, "Teaching Battery Basics in Laboratories: Comparing Learning Outcomes of Hands-on Experiments and Computer-based Simulations", Proceedings of the 27th Australasian Association for Engineering Education (AAEE) Annual Conference, Coffs Harbour, 2016.
E. Machuca-Garcia, J. Löchel, H.-G. Schweiger, "12 V lithium ion starter batteries", Proceedings: PCIM Europe 2016.
F. Steger, A. Peniche dos Santos, I. Belski, H.-G. Schweiger, "Impedance Spectroscopy Upgrade to a Student Battery Cell Test System", Conference: International Workshop on Impedance Spectroscopy, at Chemnitz, Volume: 10, accepted 08/2017.
F. Steger, A. Nitsche, K. Brade, I. Belski, H.-G. Schweiger, "Hands-on Experiments vs. Computer-based Simulations in Energy Storage Laboratories", European Society for Engineering Education (SEFI) Annual Conference, accepted 08/2017.
F. Steger, A. Nitsche, H.-G. Schweiger, I. Belski, "Teaching Energy Storages by means of a Student Battery Cell Test System", European Society for Engineering Education (SEFI) Annual Conference, accepted 08/2017.
F. Steger, K. Brade, A. Nitsche, H.-G. Schweiger, "Batterie-Training - Batterie-Testsystem für die Lehre in der Elektromobilität", eMobilityTec, 02/2017.
C. Nebl, F. Steger, H.-G. Schweiger, "Discharge Capacity of Energy Storages as a Function of the Discharge Current – Expanding Peukert’s equation", Int. J. Electrochem. Sci., Bd. 12, pp. 4940 – 4957, 2017.