Wiley
Journal of Physical Organic Chemistry
volume 38 issue 2 publication number e4677

Mechanistic Multiscale Simulations and Charge Transport Properties of Amorphous and Crystalline α‐NPD Molecular Conformations: Insights From Molecule to Material Level

Simplice Koudjina 1, 2
Vipin Kumar 3
Anuj Tripathi 3
Guy Yacole Sylvain Atohoun 2
Joachim Djimon Gbenou 1
Prabhakar Chetti 3
1
 
National High School of Applied Biosciences and Biotechnologies (ENSBBA) National University of Sciences, Technologies, Engineering and Mathematics (UNSTIM) Abomey Sogbo‐Aliho Benin
2
 
3
 
Publication typeJournal Article
Publication date2025-01-02
Wiley
scimago Q3
wos Q3
SJR0.318
CiteScore4.1
Impact factor1.8
ISSN08943230, 10991395
Abstract
ABSTRACT

The optoelectronic and charge transfer integral properties of N,N′‐di(1‐naphthyl)‐N,N′‐diphenyl‐4,4′‐diamine (α‐NPD) organic light‐emitting diode (OLED) in amorphous and crystalline structures is studied based on the Marcus–Levitch–Jortner theory and quantum chemistry calculations. The charge transfer integral simulations have been investigated through hole‐hopping regime from molecule‐to‐molecule in dimers molecules and are determined by frontier molecular orbitals (FMOs) for hole and electron transport. Quantum approaches with TD/DFT and DFT have been used to describe the most relevant electronic transitions of α‐NPD, which present character in harmony with the solvent states. Furthermore, the obtained results reveal that geometric deformations have been relied to naphthalene form and benzene rings in α‐NPD structures, and the charge transfer integral in amorphous state shows and , and in the crystalline state, it shows and . Comparing the transfer integrals average of hole/electron in the both amorphous and crystalline states, a higher value of hole transfer is explored in the amorphous form. The charge transfer transition obtained from FMO states and density of states (DOS), as well as reorganization energies values, indicates that α‐NPD would be an effective organic electronic hole transport material.

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Koudjina S. et al. Mechanistic Multiscale Simulations and Charge Transport Properties of Amorphous and Crystalline α‐NPD Molecular Conformations: Insights From Molecule to Material Level // Journal of Physical Organic Chemistry. 2025. Vol. 38. No. 2. e4677
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Koudjina S., Kumar V., Tripathi A., Atohoun G., Gbenou J. D., Chetti P. Mechanistic Multiscale Simulations and Charge Transport Properties of Amorphous and Crystalline α‐NPD Molecular Conformations: Insights From Molecule to Material Level // Journal of Physical Organic Chemistry. 2025. Vol. 38. No. 2. e4677
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TY - JOUR
DO - 10.1002/poc.4677
UR - https://onlinelibrary.wiley.com/doi/10.1002/poc.4677
TI - Mechanistic Multiscale Simulations and Charge Transport Properties of Amorphous and Crystalline α‐NPD Molecular Conformations: Insights From Molecule to Material Level
T2 - Journal of Physical Organic Chemistry
AU - Koudjina, Simplice
AU - Kumar, Vipin
AU - Tripathi, Anuj
AU - Atohoun, Guy Yacole Sylvain
AU - Gbenou, Joachim Djimon
AU - Chetti, Prabhakar
PY - 2025
DA - 2025/01/02
PB - Wiley
IS - 2
VL - 38
SN - 0894-3230
SN - 1099-1395
ER -
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@article{2025_Koudjina,
author = {Simplice Koudjina and Vipin Kumar and Anuj Tripathi and Guy Yacole Sylvain Atohoun and Joachim Djimon Gbenou and Prabhakar Chetti},
title = {Mechanistic Multiscale Simulations and Charge Transport Properties of Amorphous and Crystalline α‐NPD Molecular Conformations: Insights From Molecule to Material Level},
journal = {Journal of Physical Organic Chemistry},
year = {2025},
volume = {38},
publisher = {Wiley},
month = {jan},
url = {https://onlinelibrary.wiley.com/doi/10.1002/poc.4677},
number = {2},
pages = {e4677},
doi = {10.1002/poc.4677}
}