Journal article
Wei Tang, Lijun Qian*, Silvia González Prolongo, De-Yi Wang*
Chemical Engineering Journal, vol. 471, 2023, p. 144716
Chemical Engineering Journal, vol. 471, 2023, p. 144716
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Cite
APA
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Tang, W., Qian*, L., Prolongo, S. G., & Wang*, D.-Y. (2023). Dendritic copolymers from P-, N- and Si-based monomer and melamine phosphate generate thermal deformation toughening and a rapid charring flame retardant effect in polypropylene. Chemical Engineering Journal, 471, 144716. https://doi.org/10.1016/j.cej.2023.144716
Chicago/Turabian
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Tang, Wei, Lijun Qian*, Silvia González Prolongo, and De-Yi Wang*. “Dendritic Copolymers from P-, N- and Si-Based Monomer and Melamine Phosphate Generate Thermal Deformation Toughening and a Rapid Charring Flame Retardant Effect in Polypropylene.” Chemical Engineering Journal 471 (2023): 144716.
MLA
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Tang, Wei, et al. “Dendritic Copolymers from P-, N- and Si-Based Monomer and Melamine Phosphate Generate Thermal Deformation Toughening and a Rapid Charring Flame Retardant Effect in Polypropylene.” Chemical Engineering Journal, vol. 471, 2023, p. 144716, doi:10.1016/j.cej.2023.144716.
BibTeX Click to copy
@article{wei2023a,
title = {Dendritic copolymers from P-, N- and Si-based monomer and melamine phosphate generate thermal deformation toughening and a rapid charring flame retardant effect in polypropylene},
year = {2023},
journal = {Chemical Engineering Journal},
pages = {144716},
volume = {471},
doi = {10.1016/j.cej.2023.144716},
author = {Tang, Wei and Qian*, Lijun and Prolongo, Silvia González and Wang*, De-Yi}
}