Kumar, NarinderNarinderKumarPal, BhavnaBhavnaPalChaudhary, ShivaniShivaniChaudharySingh, DevendraDevendraSinghKumar, DeveshDeveshKumar2026-06-262026-06-262020Kumar, N., Pal, B., Chaudhary, S., Singh, D., Kumar, D. (2020). Reduced graphene oxide contains a minimum of six oxygen atoms for higher dipolar strength: A DFT study. French-Ukrainian Journal of Chemistry, 8(1), 167–173. https://doi.org/10.17721/fujcV8I1P167-17310.17721/fujcV8I1P167-173https://ir.library.knu.ua/handle/15071834/25451The present work focused on the reduced graphene oxide contains a minimum of six oxygen atoms for the higher dipolar strength. The ionization potential and electron affinity decreased only for the six oxygen atoms based graphene. The six oxygen atoms based graphene have the highest dipole moment. The reduced graphene has 0.25 eV bandgap, which is very suitable for electron transfer. The six oxygen atoms based graphene leads to the least gauge including atomic orbital (GIAO) rotational tensor; however, it has the highest isotropic polarizability difference, diamagnetic susceptibility tensor difference, paramagnetic susceptibility tensor difference, and total susceptibility. The C-C bond length has increased only for the six oxygen atoms based graphene.enReduced graphene oxideDoping of oxygen atomDFT (B3LYP)BandgapMagnetic propertiesReduced graphene oxide contains a minimum of six oxygen atoms for higher dipolar strength: A DFT studyСтаття