ELECTRONIC STRUCTURE CALCULATIONS FOR MoSe2 USING EXTENDED HUCKEL TIGHT-BINDING METHOD

2004 ◽  
Vol 18 (01) ◽  
pp. 35-44 ◽  
Author(s):  
DONALD H. GALVAN
Keyword(s):  
Electronic Structure ◽  
Density Of States ◽  
Population Analysis ◽  
Tight Binding ◽  
Electronic Structure Calculations ◽  
Total Density ◽  
Mulliken Population Analysis ◽  
Energy Bands ◽  
Mulliken Population ◽  
Structure Calculations

To gain insight into the electronic properties of MoSe 2 (molybdenum selenide, also known as drysdallite), electronic structure calculations, total and projected density of states, crystal orbital overlap population and Mulliken population analysis were performed. The calculated energy bands depict a semiconductor behavior with a direct gap (at K) of 0.91 eV and an indirect gap (from Γ to K) of 3.6 eV, respectively. Total and projected density of states provided information about the contribution from each orbital of each atom to the total density of states. Moreover, the bonding strength between some atoms within the unit cell was obtained. Mulliken population analysis corroborates the electron filling of the Mo dz2 orbitals in agreement with another experimental and theoretical results.

scholarly journals ELECTRONIC STRUCTURE CALCULATIONS FOR PrFe4P12 FILLED SKUTTERUDITE USING EXTENDED HUCKEL TIGHT-BINDING METHOD

2003 ◽  
Vol 17 (26) ◽  
pp. 4749-4762 ◽  
Author(s):  
DONALD H. GALVAN
Keyword(s):  
Electronic Structure ◽  
Density Of States ◽  
Population Analysis ◽  
Electronic Structure Calculations ◽  
Total Density ◽  
Mulliken Population Analysis ◽  
Mulliken Population ◽  
Metallic Behavior ◽  
Filled Skutterudite ◽  
Structure Calculations

To gain insight into the electronic properties of PrFe4P12 filled skutterudite, band electronic structure calculations, total and projected density of states, crystal orbital overlap population and Mulliken population analysis were performed. The energy bands yield a semi-metallic behavior with a direct gap (at Γ) of 0.02 eV. Total and Projected Density of States provided information of the contribution from each orbital of each atom to the total Density of States. Moreover, the bonding strength between some atoms within the unit cell was obtained. Mulliken Population Analysis suggests ionic behavior for this filled skutterudite.

Extended Huckel electronic calculations for PrFe4P12

2003 ◽  
Vol 793 ◽  
Author(s):  
D. H. Galvan ◽  
J. C. Samaniego
Keyword(s):  
Electronic Structure ◽  
Density Of States ◽  
Electronic Structure Calculations ◽  
Energy Bands ◽  
Metallic Behavior ◽  
Filled Skutterudite ◽  
Extended Hückel ◽  
Structure Calculations

ABSTRACTElectronic structure calculations were performed on PrFe4P12 filled skutterudite, in order to provide more information regarding its properties. The energy bands yielded information regarding the metallic behavior as well as a mini gap of 0.02 eV. Total and projected Density of States (DOS) yielded information for the existence of a hybridization between Pr -f, Fe -d and P -p orbitals. Hence, this compound could be considered a likely candidate as a thermoelectric compound.

THEORETICAL APPROACH USING EXTENDED HUCKEL TIGHT-BINDING METHOD OF THE ELECTRONIC STRUCTURE OF CeOs4Sb12 FILLED SKUTTERUDITE

2006 ◽  
Vol 20 (08) ◽  
pp. 1005-1014
Author(s):  
DONALD H. GALVAN ◽  
J. C. SAMANIEGO
Keyword(s):  
Heavy Fermion ◽  
Energy Gap ◽  
Population Analysis ◽  
Tight Binding ◽  
Energy Bands ◽  
Mulliken Population ◽  
Semiconductor Behavior ◽  
Tight Binding Method ◽  
Strong Hybridization ◽  
Heavy Fermion Behavior

Based on band structure, total and projected density of states and Mulliken Population Analysis, the electronic properties of CeOs 4 Sb 12 were investigated. The calculated energy bands depict a semiconductor behavior with an energy gap (direct gap at H ) of the order of 0.45 eV. On the other hand, a strong hybridization occurs between Ce f-orbitals with Os d-, p-, and Sb p-orbitals, which convince us to believe that this hybridization, added to the existence of a mini gap, are responsible for the heavy Fermion behavior, as well as the possibility to consider it a candidate for thermoelectric applications.

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