Scholars@Duke publication: Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network

ChemRxiv

Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network

Publication , Preprint

Wang, S; Beech, H; Bowser, B; Kouznetsova, T; Olsen, B; Rubinstein, M; Craig, S

2021

Published version (DOI)

Duke Scholars

Author Stephen L Craig Chemistry

DOI

10.26434/chemrxiv.13549745.v1

Publication Date

2021

Citation

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Wang, S., Beech, H., Bowser, B., Kouznetsova, T., Olsen, B., Rubinstein, M., & Craig, S. (2021). Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network. ChemRxiv. https://doi.org/10.26434/chemrxiv.13549745.v1

Wang, Shu, Haley Beech, Brandon Bowser, Tatiana Kouznetsova, Bradley Olsen, Michael Rubinstein, and Stephen Craig. “Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network.” ChemRxiv, 2021. https://doi.org/10.26434/chemrxiv.13549745.v1.

Wang S, Beech H, Bowser B, Kouznetsova T, Olsen B, Rubinstein M, et al. Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network. ChemRxiv. 2021.

Wang, Shu, et al. “Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network.” ChemRxiv, 2021. Epmc, doi:10.26434/chemrxiv.13549745.v1.

Wang S, Beech H, Bowser B, Kouznetsova T, Olsen B, Rubinstein M, Craig S. Mechanism Dictates Mechanics: A Molecular Substituent Effect in the Macroscopic Fracture of a Covalent Polymer Network. ChemRxiv. 2021.

DOI

10.26434/chemrxiv.13549745.v1

Publication Date

2021