Journal article
A. Lim, Sung Bae Park, Yumi Choi, D. Oh, Jeyoung Park, Hyeonyeol Jeon, J. Koo
Green Chemistry, 2023
Green Chemistry, 2023
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APA
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Lim, A., Park, S. B., Choi, Y., Oh, D., Park, J., Jeon, H., & Koo, J. (2023). Extending the high-performing boundaries of a fully bio-based thermal shrinkage film targeted for food packaging applications. Green Chemistry.
Chicago/Turabian
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Lim, A., Sung Bae Park, Yumi Choi, D. Oh, Jeyoung Park, Hyeonyeol Jeon, and J. Koo. “Extending the High-Performing Boundaries of a Fully Bio-Based Thermal Shrinkage Film Targeted for Food Packaging Applications.” Green Chemistry (2023).
MLA
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Lim, A., et al. “Extending the High-Performing Boundaries of a Fully Bio-Based Thermal Shrinkage Film Targeted for Food Packaging Applications.” Green Chemistry, 2023.
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@article{a2023a,
title = {Extending the high-performing boundaries of a fully bio-based thermal shrinkage film targeted for food packaging applications},
year = {2023},
journal = {Green Chemistry},
author = {Lim, A. and Park, Sung Bae and Choi, Yumi and Oh, D. and Park, Jeyoung and Jeon, Hyeonyeol and Koo, J.}
}
Abstract
Biomass-derived monomers, such as adipic acid (AA), 2,5-furandicarboxylic acid (FDCA), and 1,3-propanediol (PDO) can fully extend the boundaries of petroleum-based applications with desirable elastic properties, biodegradability, and impermeability.