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XANES spectra at micro-sites of increase P intensity in Bad Brueckenau topsoi...
Element: P; Element Edge: K; Athena.e0: 2152.85701 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau topsoi...
Element: P; Element Edge: K; Athena.e0: 2152.80086 -
XANES spectra at micro-sites of increase P intensity in Luess subsoil sample,...
Element: P; Element Edge: K; Athena.e0: 2152.99516 -
XANES spectra at micro-sites of increase P intensity in Luess subsoil sample,...
Element: P; Element Edge: K; Athena.e0: 2153.00383 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.49321 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.63804 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.42824 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.82953 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.79193 -
XANES spectra at micro-sites of increase P intensity in Luess subsoil sample,...
Element: P; Element Edge: K; Athena.e0: 2152.80857 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.77989 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.78118 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.71938 -
XANES spectra at micro-sites of increase P intensity in Bad Brueckenau subsoi...
Element: P; Element Edge: K; Athena.e0: 2152.72441 -
Solar spectra datasets at optimum and vertical installation angles in central...
The datasets provide three year-round worth of solar spectra for the optimum installation angle of 35° and the building-integrated-photovoltaics relevant vertical angle of 90°.... -
Understanding the barocaloric effect in Mn3NiN using inelastic neutron scatte...
Materials with large caloric effects offer the opportunity to replace current refrigeration technologies that require the compression of hazardous gases. Whilst magnetocaloric... -
Understanding the giant barocaloric effect in Mn3AN using pressure and temper...
Materials with large caloric effects offer the opportunity to replace current refrigeration technologies that require the compression of hazardous gases. Barocaloric materials... -
Comparison of Dynamical Behaviour in MAPbX3 and FAPbX3: How Do They Differ ?
Organic-inorganic lead halide perovskite compounds are shown to be very promising candidates for low cost, solution-processable, highly efficient (>22%) solar cells with a... -
Tracking changes in the phonon density of states in differently coated LixFeP...
LiFePO4 (LFP) is a commercially used Li ion battery material for high power applications. Particle shape and surface play an important role in the Li diffusion and thus the... -
Determining the interaction between water and carbon dioxide in smectite clay...
Interactions between CO2 and clay minerals have attracted interest in the scientific community recently. This is partly motivated by the presence of large amounts of clays in...
