The Influence of the Acyl Side Chain on Pyrene Excimer Formation as a Model for Asphaltene Aggregation

Asphaltene aggregation mechanism is still a nebulous and controversial issue. Many authors argue that the aggregation of its components is due to p-stacking interactions, nonetheless, alkyl chains, heteroatoms, and even acidic groups are also constituents of asphaltenes and can play an important rol...

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Veröffentlicht in:	Journal of the Brazilian Chemical Society 2025, Vol.36 (5)
Hauptverfasser:	Alvarenga, Suyane D. S. de, Garden, Simon J., Forero, Josué S. B., Teixeira, Raquel S. P., Souza, Rodrigo S., Gonçalves, Yan M. H., Horta, Bruno A. C., Gomez, Javier A. G., Santos, Luiz H. C. dos, Ribeiro, Emerson S., Corrêa, Rodrigo J.
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Schlagworte:	CHEMISTRY, MULTIDISCIPLINARY
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creator	Alvarenga, Suyane D. S. de Garden, Simon J. Forero, Josué S. B. Teixeira, Raquel S. P. Souza, Rodrigo S. Gonçalves, Yan M. H. Horta, Bruno A. C. Gomez, Javier A. G. Santos, Luiz H. C. dos Ribeiro, Emerson S. Corrêa, Rodrigo J.
description	Asphaltene aggregation mechanism is still a nebulous and controversial issue. Many authors argue that the aggregation of its components is due to p-stacking interactions, nonetheless, alkyl chains, heteroatoms, and even acidic groups are also constituents of asphaltenes and can play an important role in the chemistry of asphaltene. Excimers from pyrene are easily detected by fluorescence and were used in the current study to probe the effect of the side chain on the p-stacking capacity of pyrene. Pyrene was acylated with acyl chains varying from two to twelve carbon atoms, and the effect of the variation of the acyl chain length on excimer formation was followed by fluorescence emission spectroscopy. The results revealed that as the side chain grows from two to twelve carbon atoms the excimer/monomer ratio decreases and the excimer heat of formation drops from DH = -6.00 to -1.29 kcal mol-1. Further, the crystal structure of octanoyl pyrene (PC8) indicates that in the crystal structure, the aromatic moiety faces the acyl chain. This result was corroborated by density functional theory (DFT) calculations. Finally, the results were compared with two different asphaltenes and indicate that p-stacking cannot be assumed as the main driving force for asphaltene aggregation.
doi_str_mv	10.21577/0103-5053.20240199
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S. de ; Garden, Simon J. ; Forero, Josué S. B. ; Teixeira, Raquel S. P. ; Souza, Rodrigo S. ; Gonçalves, Yan M. H. ; Horta, Bruno A. C. ; Gomez, Javier A. G. ; Santos, Luiz H. C. dos ; Ribeiro, Emerson S. ; Corrêa, Rodrigo J.</creator><creatorcontrib>Alvarenga, Suyane D. S. de ; Garden, Simon J. ; Forero, Josué S. B. ; Teixeira, Raquel S. P. ; Souza, Rodrigo S. ; Gonçalves, Yan M. H. ; Horta, Bruno A. C. ; Gomez, Javier A. G. ; Santos, Luiz H. C. dos ; Ribeiro, Emerson S. ; Corrêa, Rodrigo J.</creatorcontrib><description>Asphaltene aggregation mechanism is still a nebulous and controversial issue. Many authors argue that the aggregation of its components is due to p-stacking interactions, nonetheless, alkyl chains, heteroatoms, and even acidic groups are also constituents of asphaltenes and can play an important role in the chemistry of asphaltene. 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title	The Influence of the Acyl Side Chain on Pyrene Excimer Formation as a Model for Asphaltene Aggregation
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