TY  - Type of reference 
TI  - Décroissance de l’électroluminescence due à la dissociation des excitons dans les couches MEH-PPV-CdSe 
AU  - Nouha Mastour
 
AU  - Said Ridene 
AB  - This present work reports the effect of nanoparticle concentration on the electroluminescence decay from exciton dissociation in organic-inorganic layers. The theoretical method for electroluminescence decay is based on the exciton dynamics of both the Frenkel exciton and Wannier exciton density. The results show that the electroluminescence intensity has been significantly influenced by the Förster transfer mechanism. In particular, we have found good agreement with experimental results observed in organic MEH-PPV and inorganic CdSe nanoparticles. These findings suggest that this hybrid material could be a promising candidate for optoelectronic devices. 
DO  - 10.21494/ISTE.OP.2026.1418 
JF  - Entropie : thermodynamique – énergie – environnement – économie  
KW  - Electroluminescence decay, nanocomposite, Frenkel and Wannier Excitons, theoretical Approach, Electroluminescence decay, nanocomposite, Frenkel and Wannier Excitons, theoretical Approach,  
L1  - https://www.openscience.fr/IMG/pdf/iste_entropie25v6nspe_3.pdf 
LA  - fr 
PB  - ISTE OpenScience 
DA  - 2026/02/18 
SN  - 2634-1476 
TT  - Electroluminescence decay from exciton dissociation in MEH-PPV-CdSe layers 
UR  - https://www.openscience.fr/Decroissance-de-l-electroluminescence-due-a-la-dissociation-des-excitons-dans 
IS  - Numéro spécial 
VL  - 6 
ER  -