Dataset DOI: 10.5061/dryad.wm37pvn00

Description of the data and file structure

Raw multidimensional NMR MGSE-MGSE data output from Prospa v3.62 corresponding to the descriptions in the paper "Mapping structures and dynamics with frequency-correlated diffusion exchange." Zipped folder names indicate sample identity (listed below). Each sample folder contains 20 subfolders named N150, N1000, N1150, N1200, N1250, ... N11000. These folders are numbered to indicate the number of echoes recorded within the first 55-ms MGSE block; the number string following "N1" is the number of echoes incremented in that block. This can be converted to the modulation frequency of the indirect dimension of the MGSE correlation. Each of these folders contains subfolders named by number of echoes recorded within the second (readout dimension) MGSE block, also 55-ms here. The number of echoes in the readout train was also incremented from 50 to 1000 in steps of 50; this can be converted to the modulation frequency of the direct dimension of the MGSE correlation. The time and intensity (real part) data are stored in the first and second columns of the csv files named "data.csv" in each sub-subfolder. These files are all that is needed to load the data and can be opened in many softwares (Excel, Python, Matlab, etc, as well as any other text editor); the 'acqu.par' files can be opened in any text editor; additional files with extensions .1D, .2D, .PT1, and .PT2 can be used to open 1D and 2D data or plots, respectively, directly in Prospa, but are redundant (these were included for completeness in data reporting; however, it is unnecessary for viewers to use these files because all relevant parameters are reported directly in the manuscript, SI, and readme here on Dryad; and the raw data is included in the 'data.csv' files).

Experiments were collected on a 0.3 T NMR-MOUSE unilateral magnet with a constant magnetic field gradient of 7 T/m. Analysis codes are included in the Supplemental Materials of the paper to process the data in MatLab; alternatively, data can be readily analyzed in any software that will load csv or ascii files.

Files and variables

File: PDK-ppg2000-monoglyme-swelled-5ms.zip

Description: raw multidimensional MGSE experimental data for linear PDK-PPG-2000 swelled in monoglyme with experimental mixing time of 5 ms.

File: PDK-ppg2000-HCl-endpoint-5ms.zip

Description: raw multidimensional MGSE experimental data for linear PDK-PPG-2000 after 5.0 M HCl depolymerization reaction endpoint with experimental mixing time of 5 ms.

File: PDK-T5000-HCl-rxn-5ms.zip

Description:  raw multidimensional MGSE experimental data for crosslinked PDK-T5000 during 5.0 M HCl depolymerization reaction with experimental mixing time of 5 ms.

File: PDK-ppg2000-monoglyme-HCl-endpoint-5ms.zip

Description: raw multidimensional MGSE experimental data for linear PDK-PPG-2000 after 5.0 M HCl depolymerization reaction endpoint (pre-swelled with monoglyme) with experimental mixing time of 5 ms.

File: PDK-ppg2000-monoglyme-HCl-rxn-5ms.zip

Description:  raw multidimensional MGSE experimental data for linear PDK-PPG-2000 during 5.0 M HCl depolymerization reaction (pre-swelled with monoglyme) with experimental mixing time of 5 ms.

File: PDK-T5000-monoglyme-HCl-endpoint-5ms.zip

Description: raw multidimensional MGSE experimental data for crosslinked PDK-T5000 after 5.0 M HCl depolymerization reaction endpoint (pre-swelled with monoglyme) with experimental mixing time of 5 ms.

File: PDK-ppg2000-HCl-rxn-5ms.zip

Description: raw multidimensional MGSE experimental data for linear PDK-PPG-2000 during 5.0 M HCl depolymerization reaction with experimental mixing time of 5 ms.

File: PDK-T5000-HCl-endpoint-5ms.zip

Description: raw multidimensional MGSE experimental data for crosslinked PDK-T5000 after 5.0 M HCl depolymerization reaction endpoint with experimental mixing time of 5 ms.

File: PDK-T5000-monoglyme-HCl-rxn-5ms.zip

Description: raw multidimensional MGSE experimental data for crosslinked PDK-T5000 during 5.0 M HCl depolymerization reaction (pre-swelled with monoglyme) with experimental mixing time of 5 ms.

File: PDK-T5000-monoglyme-swelled-5ms.zip

Description: raw multidimensional MGSE experimental data for crosslinked PDK-T5000 swelled with monoglyme with experimental mixing time of 5 ms.