Raw NMR data for the three trials measuring the distance between 15N in the backbone of glutamic acid in FD31* to 13C in the calcite surface using REDOR NMR. Data collected on a 300 MHz instrument using a 5 mm HCN probe.

Raw data for all three trials used to calculate the T1rho value for FD31-U-E nucleated calcite at both room temperature and frozen. This data shows that both the FD31 backbone and sidechain carbonyls in glutamic are immobile in nucleated calcite on the millisecond timescale at both temperatures.

Comparison of frozen and room temperature 1H-13C CP-MAS spectra for FD31-U-T nucleated calcite show that the threonine backbone carbonyl is immobile at both temperatures on the ~500 microsecond timescale. A slight decrease in signal to noise between the room temperature and frozen spectra does...

Circular dichroism data showing that both FD31 and FD31* adopt identical helical secondary structures in solution.

Raw data for all three trials used to calculate the T1rho value for FD31-U-T nucleated calcite at both room temperature and frozen. This data shows that the FD31 backbone carbonyl in threonine is immobile in nucleated calcite on the millisecond timescale at both temperatures.

Room temperature and frozen CP-MAS spectra of FD31*-U-E nucleated calcite showing the overall CSA pattern does undergo slight perturbations as a function of temperature. While the overall CSA pattern does suggest the backbone carbonyl of Glu is immobile and the sidechain carbonyl of Glu is mobile on...

Room temperature and frozen CP-MAS spectra of FD31*-Edelta nucleated calcite showing the overall CSA pattern does not change as a function of temperature. The FD31* Glu sidechain carbonyl appears to be mobile on the ~500 microsecond timescale under both temperature conditions.

Solid state NMR CP-MAS 1H{13C} spectrum of FD31*-Edelta in the lyophilized state without calcite, showing that there are two distinct populations present even without surface.

The raw NMR data files for all three T1rho trials at room temperature for the FD31*-E' nucleated calcite sample showing almost no mobility for the Glu backbone carbonyls in FD31* on the millisecond timescale.

Solution NMR spectra of FD31*-Edelta dissolve in D2O, showing the distribution of peaks for glutamic acid (~180 ppm) and glutamine (~174 ppm), the latter of which was labeled via scrambling.

Solution NMR spectra of 5-13C-Glu amino acid used to synthesize FD31*-Edelta samples for solid state NMR. Spectra verifies that the starting material was only isotopically enriched at position 5.

The raw NMR data files for all three T1rho trials at room temperature for the FD31*-Edelta nucleated calcite sample showing almost no mobility for the Glu sidechain carbonyls in FD31* on the millisecond timescale.

Room temperature and frozen CP-MAS spectra of FD31*-E' nucleated calcite showing the overall CSA pattern does not change as a function of temperature. The FD31* Glu backbone carbonyl appears to be immobile on the ~500 microsecond timescale under both temperature conditions.

The SATELLITE_EAGLES_PNNL NetCDF dataset contains a suite of satellite- and reanalysis-derived atmospheric and surface parameters on a regular latitude–longitude grid. The dataset includes core geophysical fields such as land fraction, aerosol optical depth at multiple wavelengths (465, 550, 667...

Download the zip file. Having comparable data and reporting is crucial for overcoming existing gaps in the Battery Energy Storage System (BESS) industry. Currently, the inconsistency in approaches and limited availability of component-level data make assessments of energy storage systems challenging...