On the energy gap determination of organic optoelectronic materials: the case of porphyrin derivatives - Concepedia

Concepedia

Publication | Open Access

On the energy gap determination of organic optoelectronic materials: the case of porphyrin derivatives

DOI Full Paper Access

69

Citations

67

References

2022

Year

Rian E. Aderne, B. G. A. L. Borges, Harold C. Ávila, Fredrik von Kieseritzky, Jonas Hellberg, Marlus Koehler, M. Cremona, Lucimara S. Roman, C. Moysés Araújo, Maria Luiza M. Rocco,

Materials Advances

Optical MaterialsEngineeringOrganic ElectronicsExcitation Energy TransferOrganic ChemistryComputational ChemistryChemistryEnergy Gap DeterminationSemiconductorsCharge Carrier TransportPorphyrin DerivativesOrganic Optoelectronic MaterialsTheoretical MethodologiesPhotochemistryPhysicsOptoelectronic MaterialsOrganic SemiconductorPhysical ChemistryQuantum ChemistryOrganic Charge-transfer CompoundOrganic Material ChemistryElectronic MaterialsNatural SciencesApplied PhysicsKey PhenomenaEnergy Gap

Abstract

We attempt to reconcile experimental and theoretical methodologies for the determination of the energy gap, which is essential to properly characterize a series of key phenomena related to the applications of organic semiconductors.

References

	Year	Citations

Page 1