Michael Felderhoff
Michael Felderhoff
Verified email at mpi-muelheim.mpg.de
Cited by
Cited by
Chemical and physical solutions for hydrogen storage
U Eberle, M Felderhoff, F Schueth
Angewandte Chemie International Edition 48 (36), 6608-6630, 2009
Light metal hydrides and complex hydrides for hydrogen storage
F Schüth, B Bogdanović, M Felderhoff
Chemical communications, 2249-2258, 2004
Hydrogen storage: the remaining scientific and technological challenges
M Felderhoff, C Weidenthaler, R von Helmolt, U Eberle
Physical Chemistry Chemical Physics 9 (21), 2643-2653, 2007
Improved Hydrogen Storage Properties of Ti‐Doped Sodium Alanate Using Titanium Nanoparticles as Doping Agents
B Bogdanović, M Felderhoff, S Kaskel, A Pommerin, K Schlichte, ...
Advanced Materials 15 (12), 1012-1015, 2003
Advanced Hydrogen‐Storage Materials Based on Sc‐, Ce‐, and Pr‐Doped NaAlH4
B Bogdanović, M Felderhoff, A Pommerin, F Schueth, N Spielkamp
Advanced Materials 18 (9), 1198-1201, 2006
Enhancing the Regeneration Process of Consumed NaBH4 for Hydrogen Storage
L Ouyang, W Chen, J Liu, M Felderhoff, H Wang, M Zhu
Advanced Energy Materials 7 (19), 1700299, 2017
High temperature metal hydrides as heat storage materials for solar and related applications
M Felderhoff, B Bogdanović
International journal of molecular sciences 10 (1), 325-344, 2009
Investigation of hydrogen discharging and recharging processes of Ti-doped NaAlH4 by X-ray diffraction analysis (XRD) and solid-state NMR spectroscopy
B Bogdanović, M Felderhoff, M Germann, M Härtel, A Pommerin, F Schüth, ...
Journal of Alloys and Compounds 350 (1-2), 246-255, 2003
Magnesium based materials for hydrogen based energy storage: past, present and future
VA Yartys, MV Lototskyy, E Akiba, R Albert, VE Antonov, JR Ares, ...
international journal of hydrogen energy 44 (15), 7809-7859, 2019
Complex aluminum hydrides
B Bogdanović, U Eberle, M Felderhoff, F Schüth
Scripta Materialia 56 (10), 813-816, 2007
Combined TEM-EDX and XAFS studies of Ti-doped sodium alanate
M Felderhoff, K Klementiev, W Grünert, B Spliethoff, B Tesche, ...
Physical Chemistry Chemical Physics 6 (17), 4369-4374, 2004
Materials for hydrogen-based energy storage–past, recent progress and future outlook
M Hirscher, VA Yartys, M Baricco, JB von Colbe, D Blanchard, ...
Journal of Alloys and Compounds 827, 153548, 2020
Chemische und physikalische Lösungen für die Speicherung von Wasserstoff
U Eberle, M Felderhoff, F Schüth
Angewandte Chemie 121 (36), 6732-6757, 2009
Mechanochemical preparation and investigation of properties of magnesium, calcium and lithium–magnesium alanates
M Mamatha, B Bogdanović, M Felderhoff, A Pommerin, W Schmidt, ...
Journal of Alloys and Compounds 407 (1-2), 78-86, 2006
Mg-based compounds for hydrogen and energy storage
JC Crivello, RV Denys, M Dornheim, M Felderhoff, DM Grant, J Huot, ...
Applied Physics A 122 (2), 85, 2016
On the state of the titanium and zirconium in Ti-or Zr-doped NaAlH 4 hydrogen storage material
C Weidenthaler, A Pommerin, M Felderhoff, B Bogdanović, F Schüth
Physical Chemistry Chemical Physics 5 (22), 5149-5153, 2003
Solid-state hydrogen storage for mobile applications: Quo Vadis?
C Weidenthaler, M Felderhoff
Energy & environmental science 4 (7), 2495-2502, 2011
Comparative studies of the decomposition of alanates followed by in situ XRD and DSC methods
M Mamatha, C Weidenthaler, A Pommerin, M Felderhoff, F Schüth
Journal of alloys and compounds 416 (1-2), 303-314, 2006
Hydrogen storage properties of nanostructured MgH2/TiH2 composite prepared by ball milling under high hydrogen pressure
H Shao, M Felderhoff, F Schüth
International journal of hydrogen energy 36 (17), 10828-10833, 2011
One-step direct synthesis of a Ti-doped sodium alanate hydrogen storage material
JMB von Colbe, M Felderhoff, B Bogdanović, F Schüth, C Weidenthaler
Chemical communications, 4732-4734, 2005
The system can't perform the operation now. Try again later.
Articles 1–20