Markus Klose
2D Materials in Action: Energy Technologies Symposium
Dresden, Germany 20 - 21 Oct 2025
First and last name: Markus Klose
Title: Director Intellectual Property & Advanced Development
Affiliation: Skeleton Technologies GmbH
Address: Göhrenzer Str. 1, 04420 Markranstädt
Website(s): https://www.skeletontech.com/
Short Biography:
- Masters Degree in Chemistry, PhD in Material Science, both from TU Dresden
- After completing the PhD in 2025, worked in an internal corporate Start-up of the German material corporation “Heraeus” in the Rhine-Main-Area, Germany on Advanced Carbon Additives for Batteries
- Since 2018 a part of Skeleton Technologies, an Estonia-German producer of high-power energy storage solutions
- Initially responsible for the Material Development of Skeletons proprietary carbon-based raw material “Curved Graphene”
- Since 2021 global lead of Skeletons Intellectual Property Division, responsible for all matters regarding patents, trade secrets and related contract topics
- In addition currently also responsible for the Advanced Development of Skeletons Curved-Graphene based Supercapacitors as well as for the Development of High-Voltage and High-Temperature Cells
Talk Title & Abstract:
“Bringing 2D into 3D: Industrial perspective on new materials for advanced energy storage devices”
The increasing trend of electrification of entire industries warrants the need for improved high-power energy storage capabilities. The delivery or uptake of high currents in short timeframes requires innovative approaches, that go beyond conventional Lithium-Ion-Battery chemistries and materials to provide solutions with commercially viable system lifetimes at competitive cost. Skeleton Technologies addresses these challenges with Supercapacitors and SuperBattery including its proprietary raw material “Curved Graphene”. In this presentation the challenges and solutions in the high-power energy storage field will be highlighted as well as the pathway towards the integration of novel materials into scalable industry-standard manufacturing processes.