First Principle Computational Studies On The Electronic Structure Of Muonated Κ-(Bedt-Ttf)2Cu[N(Cn)2]Cl And Κ-D8-(Bedt-Ttf)2Cu[N(Cn)2]Br
κ --(BEDT TTF) R 2 R Cu[N(CN) R 2 R ]Cl and κ-d8-(BEDT-TTF)R2RCu[N(CN)R2R]Br are organic magnet material s with potential application in spintronics. The number of µ SR data on this structure ha s increas ed r apidly and continuously appear from time to time. An unpaired electron is generally lo...
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| Format: | Thesis |
| Language: | English |
| Published: |
2022
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| Subjects: | |
| Online Access: | http://eprints.usm.my/59519/1/24%20Pages%20from%20DANG%20FATIHAH%20BINTI%20HASAN%20BASERI.pdf |
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| Summary: | κ
--(BEDT TTF) R 2 R Cu[N(CN) R 2 R ]Cl and κ-d8-(BEDT-TTF)R2RCu[N(CN)R2R]Br are
organic magnet material s with potential application in spintronics. The number of
µ SR data on this structure ha s increas ed r apidly and continuously appear from time
to time. An unpaired electron is generally localized throughout the dimer and is not
localized around a particular atom which can affect the ma gnetic properties of the
system . the long range ordering of the magnetic moments that was
configured by the m agnetic structure of the system remains unclear and further
investigations are required. In order t o complement the µ SR study , the Density
Functional Th eory (DFT) computational me thod has been performed to investigate
the electronic structures in the high spin and antiferromagnetic ( AFM state as well
as to observe the type of the magnetism that exists in this compound. As the total
energy obtained in an AFM state for MMR1212R, MMR2323R and M 31 configurations are slightly
more stable compared to the high spin state, it is computationally proved that the
ground state possessed an AFM configuration . The relative energy for |
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