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Symmetry breaking induced bandgap opening in epitaxial germanene on WSe2

Qilong Wu, Meysam Bagheri Tagani, Qiwei Tian, Sahar Izadi Vishkayi, Li Zhang, Li Zhang, Long‐Jing Yin, Yuan Tian, Lijie Zhang, Lijie Zhang, Zhihui Qin

2022Applied Physics Letters21 citationsDOI

Abstract

Germanene has attracted much attention because the material was predicted to host Dirac fermions. However, the synthesis of germanene is still in its infancy; moreover, the predicted tiny bandgap induced by the spin–orbit coupling is far from practical applications for nanoelectronic devices. Herein, quasi-freestanding germanene with linear dispersion relation of the band structure is well grown on a WSe2/Au(100) substrate. Band structure calculations reveal that the interaction of germanene with the substrate destroys the sublattice symmetry. The energy-dependent contribution of σ orbitals responsible for band crossing at the Fermi level around the Γ point induces asymmetric density of states at the Dirac point. Upon annealing in ultra-high vacuum, we observe a bandgap opening in germanene of about ∼0.17 eV, which is attributed to a sublattice symmetry breaking in germanene and the emergence of a net electric field. This work provides an effective method to tune or tailor the electronic properties of germanene, paving the way to germanene-based field-effect applications.

Topics & Concepts

GermaneneCondensed matter physicsBand gapElectronic band structureMaterials scienceFermi levelPhysicsNanotechnologyElectronGrapheneQuantum mechanicsSiliceneGraphene research and applicationsTopological Materials and Phenomena2D Materials and Applications
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