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A Novel Methacrylate Derivative Polymer That Resists Bacterial Cell-Mediated Biodegradation Data Sharing Archive

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Collection period

2020-08-17
2021-04-29

Date completed

2021-10

Date updated

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Title

A Novel Methacrylate Derivative Polymer That Resists Bacterial Cell-Mediated Biodegradation Data Sharing Archive

Published Date

2021-11-22

Author Contact

Jones, Robert S
rsjones@umn.edu

Type

Dataset
Experimental Data

Abstract

We studied biodegradation resistance of a custom synthesized (by TDA Research Inc) novel ethylene glycol ethyl methacrylate (EGEMA) with ester bond linkages that are external to the central polymer backbone when polymerized. Experiments were designed to compare degradation resistance with Ethylene glycol dimethacrylate (EGDMA) with internal ester bond linkages. The data has been published in an article titled "A Novel Methacrylate Derivative Polymer That Resists Bacterial Cell-Mediated Biodegradation" in the Journal of Biomedical Materials Research: Part B - Applied Biomaterials. The data in this record supports the figures in the published manuscript.

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Referenced by

Kumar, D., Ghose, D., Bolskar, R. D., Mutreja, I., and Jones, R. S. (2021). A Novel Methacrylate Derivative Polymer That Resists Bacterial Cell-Mediated Biodegradation. Journal of Biomedical Materials Research: Part B Applied Biomaterials. Advance online publication. https://doi-org.ezp2.lib.umn.edu/10.1002/jbm.b.34972

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Funding information

NIH/NIDCR 1R43DE024013

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Suggested citation

Kumar, Dhiraj; Ghose, Debarati; Mutreja, Isha; Bolskar, Robert; Jones, Robert S. (2021). A Novel Methacrylate Derivative Polymer That Resists Bacterial Cell-Mediated Biodegradation Data Sharing Archive. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/jms8-pq47.

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