Title :
Strain-induced on germanene monolayer 6nm short channel FET from first-principle study
Author :
Abhinav, E. Meher ; Chary, D. Vemana
Author_Institution :
Electron. & Commun. Eng., Malla Reddy Group of Instn., Hyderabad, India
Abstract :
By first-principle calculations, variation of I-V curves are plotted by applying strains on germanene zig-zag nano-ribbon FET. The vibrational and electronic properties of 2D buckled honeycomb structure of germanene monolayer subjected to the strain have been investigated. The negative differential resistance (NDR) behaviour of short channel germanene zig-zag nano-ribbon FET is analysed. Effect caused by compressive and tensile biaxial and uni-axial strains on the germanene monolayer on 6nm germanene (ZNR) FET is evaluated by density functional theory (DFT) and non-equilibrium greens function (NEGF) approach. We studied the ID.VD curves and the changes show interesting possibilities in future for electronic properties of 2D buckled honeycomb germanene structure.
Keywords :
density functional theory; field effect transistors; germanium compounds; honeycomb structures; monolayers; nanoribbons; negative resistance devices; 2D buckled honeycomb structure; DFT approach; Ge; I-V curve variation; NDR behaviour; NEGF approach; ZNR FET; compressive biaxial strains; density functional theory; electronic properties; first-principle calculation study; monolayer strain induction; negative differential resistance behaviour; nonequilibrium greens function approach; short channel zig-zag nanoribbon FET; size 6 nm; tensile biaxial strains; uniaxial strains; vibrational properties; Field effect transistors; Graphene; Logic gates; Materials; Photonic band gap; Tensile strain; Density functional theory (DFT); Germanene; Non-equilibrium greens function (NEGF); field effect transistor (FET); negative differential resistance (NDR); zig-zag nano-ribbon (ZNR);
Conference_Titel :
Circuits, Communication, Control and Computing (I4C), 2014 International Conference on
Print_ISBN :
978-1-4799-6545-8
DOI :
10.1109/CIMCA.2014.7057743
