@misc{boehme_b1mobilstor_materials_2014, 
author={Boehme, B.,Bonatto Minella, C.,Thoss, F.,Lindemann, I.,Rosenburg, M.,Pistidda, C.,Moeller, K.T.,Jensen, T.R.,Giebeler, L.,Baitinger, M.,Gutfleisch, O.,Ehrenberg, H.,Eckert, J.,Grin, Y.,Schultz, L.},
title={B1-Mobilstor: Materials for Sustainable Energy Storage Techniques – Lithium Containing Compounds for Hydrogen and Electrochemical Energy Storage},
year={2014},
howpublished = {journal article},
doi = {https://doi.org/10.1002/adem.201400182},
abstract = {New material concepts for hydrogen storage and lithium ion batteries are investigated in the joint ECEMP project B1 – Mobilstor. Chemical composition are essential for the performance of a storage material. A certain state of material can be effectively analyzed by in situ methods to obtain a maximum of information. For hydrogen storage the LiNH2[BOND]MgH2 system and as lithium ion battery anode the Ge(cF136) allotrop are highlighted under this issue.},
note = {Online available at: \url{https://doi.org/10.1002/adem.201400182} (DOI). Boehme, B.; Bonatto Minella, C.; Thoss, F.; Lindemann, I.; Rosenburg, M.; Pistidda, C.; Moeller, K.; Jensen, T.; Giebeler, L.; Baitinger, M.; Gutfleisch, O.; Ehrenberg, H.; Eckert, J.; Grin, Y.; Schultz, L.: B1-Mobilstor: Materials for Sustainable Energy Storage Techniques – Lithium Containing Compounds for Hydrogen and Electrochemical Energy Storage. Advanced Engineering Materials. 2014. vol. 16, no. 10, 1189-1195. DOI: 10.1002/adem.201400182}}