Data for Accelerated hydrolysis of amorphous polylactide containing salicylate additives
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2022-07-21
2024-06-04
2024-06-04
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2024-11-20
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Data for Accelerated hydrolysis of amorphous polylactide containing salicylate additives
Published Date
2024-11-25
Author Contact
Ellison, Christopher
cellison@umn.edu
cellison@umn.edu
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Dataset
Experimental Data
Experimental Data
Abstract
Blends of amorphous-grade polylactide (PLA) with low levels of salicylic acid (SA), disalicylide (DS), or oligosalicylate (OS) were prepared using scalable melt processing techniques. The glass transition temperature (Tg), tensile properties, and shelf-life stability of the salicylate-containing blends were nearly identical to neat PLA (Tg = 56.3 °C). The inclusion of salicylate additives accelerated sample mass loss in artificial seawater at 50 °C by up to a factor of three as compared to neat PLA. Water uptake occurred after the PLA molar mass dropped below 15 kg/mol, corresponding to the point that the Tg of the remaining material dropped below 50 °C. The onset of mass loss was observed after PLA hydrolyzed into 2 kg/mol fragments, coinciding with leaching of SA and DS; OS remained in the blends for longer immersion periods. The rate of molar-mass loss in 1 wt.% salicylate-containing blends was up to twice as fast as the rate of neat PLA. Degradation-induced PLA crystallization occurred once Tg dropped below 50 °C and mass loss slowed after the degree of crystallinity (Xc) exceeded 50%. We conclude that a low concentration of carboxylic acid groups from salicylate-containing compounds is sufficient to enhance PLA degradability without sacrificing material performance.
Description
A full description can be found in the readme.txt file. The files below include raw data used in the manuscript including nuclear magnetic resonance spectroscopy (NMR), size exclusion chromatography (SEC), differential scanning calorimetry (DSC), ultraviolet-visible spectroscopy (UV-Vis), uniaxial tensile testing, sample mass measurements, gas chromatography-mass spectrometry (GC-MS), and X-ray diffraction (XRD).
Software requirements:
NMR - .fid files can be opened using NMR software such as MestreNova and Topspin
XRD - .cif files can be opened using crystallographic software such as VESTA and CrystalMaker
All other files are .txt or .csv and can be opened using spreadsheet editing software such as Microsoft Excel and Google Sheets.
Referenced by
Rachita, Eric; Larison, Taylor; Hillmyer, Marc; Ellison, Christopher. (2024). Accelerated hydrolysis of amorphous polylactide containing salicylate additives. UNDER REVIEW
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This research was supported by the Engineer Research and Development Center’s (ERDC) Construction Engineering Research Laboratory (CERL) at the US Army Corps of Engineers (grant no. W81EWF11255517). E.R. acknowledges funding from a National Science Foundation (NSF) Graduate Research Fellowship (grant no. 2237827). Any opinions, findings, conclusions, or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the NSF.
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Rachita, Eric; Larison, Taylor; Hillmyer, Marc; Ellison, Christopher. (2024). Data for Accelerated hydrolysis of amorphous polylactide containing salicylate additives. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/vb0d-c587.
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readme.txt
Description of data
(153.64 KB)
AdditiveCharacterization.zip
Primary data files for the characterization of the additives
(8.07 MB)
DSC.zip
DSC data
(1.52 MB)
HNMR.zip
HNMR data
(21.86 MB)
SampleMass.zip
Sample mass dat
(8 KB)
SEC.zip
SEC data
(9.93 MB)
TensileTesting.zip
Uniaxial tensile testing data
(91.75 KB)
UV-Vis.zip
UV-Vis data
(1016.14 KB)
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