Dataset for the paper "Electropermeabilization of hydroperoxidized lipid membranes". Data was generated from Orbit Mini miniaturized bilayer workstation (Nanion Technologies, Munich, Germany), with an inserted microelectrode cavity array (MECA 4) recording chip (Ionera Technologies, Freiburg, Germany). The data files have format .abf, a standard format for electrophysiological data.
It can be read by applications such as for instance - Clampex and ClampFit, from the patch-clamp software suite pCLAMP,
- Elements Data Analyzer, associated with the elements data reader software from Elements-IC,
or imported into Python through the package pyABF 2.3.5. import pyabf // abf=pyabf.ABF(path+"/"+f+"/"+abffile) // data = np.vstack((abf.sweepX, abf.data)) Data is organized in five folders named according to target hydroperoxidation degrees:
POPC
POPC-OOH 25%
POPC-OOH 50%
POPC-OOH 75%
POPC-OOH 100% Inside each of the five above files data is organized by date, and informed with the actual measured hydroperoxidation degree for a given sample.

Dataset for the paper "Electropermeabilization of hydroperoxidized lipid membranes". Data was generated from Orbit Mini miniaturized bilayer workstation (Nanion Technologies, Munich, Germany), with an inserted microelectrode cavity array (MECA 4) recording chip (Ionera Technologies, Freiburg, Germany). The data files have format .abf, a standard format for electrophysiological data.
It can be read by applications such as for instance - Clampex and ClampFit, from the patch-clamp software suite pCLAMP,
- Elements Data Analyzer, associated with the elements data reader software from Elements-IC,
or imported into Python through the package pyABF 2.3.5. import pyabf // abf=pyabf.ABF(path+"/"+f+"/"+abffile) // data = np.vstack((abf.sweepX, abf.data)) Data is organized in five folders named according to target hydroperoxidation degrees:
POPC
POPC-OOH 25%
POPC-OOH 50%
POPC-OOH 75%
POPC-OOH 100% Inside each of the five above files data is organized by date, and informed with the actual measured hydroperoxidation degree for a given sample.

Data set for PNAS paper "Accumulation of styrene oligomers alters lipid membrane phase order and miscibility" by Morandi etal. The data concerns four techniques: small angle neutron scattering (sans), differential scanning calorimetry (dsc), epifluorescence microscopy of giant unilamellar vesicles (guvs) and spectrophotometric data from vesicles with the probe laurdan (laurdan). Data from each technique is stored as a compressed zip file containing the data and a readme.txt file with the corresponding data information.

Data set for PNAS paper "Accumulation of styrene oligomers alters lipid membrane phase order and miscibility" by Morandi etal. The data concerns four techniques: small angle neutron scattering (sans), differential scanning calorimetry (dsc), epifluorescence microscopy of giant unilamellar vesicles (guvs) and spectrophotometric data from vesicles with the probe laurdan (laurdan). Data from each technique is stored as a compressed zip file containing the data and a readme.txt file with the corresponding data information.