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Investigation of the phases formed during the conversion reaction of the C-ba...
FeF2 is a conversion reaction material that undergoes a reaction with lithium: FeF2+2Li++2e-<->2LiF+Fe, which results in a high theoretical capacity, 571 mA/g.... -
Crystal-chemical environment of lithium atoms in battery anode materials
We want to investigate and Rietveld-refine the crystal structures of a number of lithium titanates and niobates of interest as battery anode materials. Some of these phases have... -
Ionic disorder studies of lightweight hydrides by VESUVIO
We ask for 8 days on VESUVIO to study the momentum distribution of LiBH4, Li2NH and Li1+xNH2-x as a function of temperature from 10K-653K (depending on sample). Li2NH and... -
Reversible ammonia storage; Structure and stoichiometry of defect imide-amide...
In this proposal we will study the average and local structure changes in Li-N-D imide-amides formed as intermediates during the ammoniation of Li3N and deammoniation of LiND2.... -
Neutron powder diffraction on graphene and metal-decorated graphene
Graphene is a very promising material and appears particularly suitable in order to develop efficient hydrogen storage systems, especially if it is ¿decorated¿ with proper metal... -
The environment of lithium in an invert glass
We request beamtime to study lithium silicate glasses over a very wide composition range from 20 to 65 mol.% Li2O, made by rapid quenching. For the higher Li2O contents, the... -
Superstructures in lithium cobaltate
The battery material LixCoO2 has recently been shown to have high thermopower comparable to NaxCoO2 at high x. In the case of NaxCoO2 we showed using neutron Laue diffraction on... -
The Interaction of Ammonia with Binary and Ternary Nitrides
We request 2 days on GEM in conjunction with the IGAn apparatus to investigate the formation of lithium amide (LiNH2) from the interaction of Li3N with ammonia (ND3), and the... -
Combined in-situ structural and hydrogen desorption/absorption studies of hyd...
The Li?N?H hydrogen storage system is one of the most promising candidates for hydrogen storage in vehicular applications and the addition of halide ions significantly increases... -
The short hydrogen bond in organic crystal structures revisited: (T,p) phase ...
Very short hydrogen bonds (with O···O separations <2.5Å), in which the position and behaviour of the protons are often ambiguous, have been the subject of many studies by... -
Phase-field investigation of lithium electrodeposition under different applie...
Despite the high promise of Li-metal-based batteries, its commercialization has been hampered due to the formation of dendrites that lead to mechanical instability, energy loss... -
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1h.
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1h. -
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1g.
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1g. -
Geochemical Analysis of Cations of Mud Samples of the KTB Pilot Hole VB1a.
Geochemical Analysis of Cations of Mud Samples of the KTB Pilot Hole VB1a. -
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1d.
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1d. -
Geochemical Analysis of Cations of Mud Samples of the KTB Pilot Hole VB1.
Geochemical Analysis of Cations of Mud Samples of the KTB Pilot Hole VB1. -
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1a.
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1a. -
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1.
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1. -
Geochemical Analysis of Cations of Mud Samples of the KTB Pilot Hole VB1b.
Geochemical Analysis of Cations of Mud Samples of the KTB Pilot Hole VB1b. -
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1i
Geochemical Analysis of Cations of Mud Samples of the KTB Main Hole HB1i
