We investigate band structure and transport property of lattice-matched graphene/hexagonal boron nitride (h-BN) heterostructure using the tight-binding approach. It shows that local potentials can significantly modify the band structure and the transport property. A method to individually manipulate the ...
aAttached is the WI for your confirmation, Thanks. 附上WI为您的确认,感谢。[translate] aA lot of experiments and calculations have focused on the band gap energy and band structure of h-BN. 很多实验和演算集中于hBN带隙能量和带状组织。[translate]...
Efficient many-body calculations for two-dimensional materials using exact limits for the screened potential: Band gaps of MoS2, h-BN, and phosphorene Filip,A.,Rasmussen,... - 《Physical Review B》 - 201...
Photocurrent excitation spectroscopy has been employed to probe the band structure and basic parameters of hexagonal boron nitride (h-BN) epilayers synthes... TC Doan,J Li,JY Lin,... - 《Applied Physics Letters》 被引量: 9发表: 2016年 Constructing h‐BN/Bi2WO6 Quantum Dot Hybrid with Fast...
c, d Band structure of the graphene/h-BN moiré superlattice with θ = 0° at the K-point calculated using an effective continuum model. Calculation is performed under an c inversion symmetric model and an d inversion asymmetric model. The band structure exhibits series of bands—the ...
最近,六方氮化硼(h-BN)纳米材料(如纳米片和纳米管)被认为是一种有效的可逆气体吸附材料,带电后具有高选择性。然而,尽管理论预测令人鼓舞,但由于 h-BN 带隙较大,具有电绝缘性质,因此很难在实验中实现传感。 本文,华中科技大学龙湖...
华中科技大学《AFM》:杂化h-BN/石墨烯气凝胶,用于超高灵敏度和选择性氨传感 1成果简介 最近,六方氮化硼(h-BN)纳米材料(如纳米片和纳米管)被认为是一种有效的可逆气体吸附材料,带电后具有高选择性。然而,尽管理论预测令人鼓舞,但由于 h-BN 带隙较大,具有电绝缘性质,因此很难在实验中实现传感。本文,...
以前的调查结果表明,带隙能H-bn范围从3.2到5.97EV。 翻译结果3复制译文编辑译文朗读译文返回顶部 以前的结果表示 h BN 的乐队的差距能量范围从 3.2 到 5.97 eV。 翻译结果4复制译文编辑译文朗读译文返回顶部 早先结果表明h BN带隙能量从3.2范围到5.97 eV。 翻译结果5复制译文编辑译文朗读译文返回顶部 早先结果表明...
The results show that the band structure of BN has the semiconductor character with the forbidden gap of about 4.96 eV. BN optical properties reveal that the optical conductivity begins at the gap of about 2.92 eV and 6.73 eV in both parallel and perpendicular electric field polarizations, ...
H. Investigation of band structure and electrochemical properties of h-BN/rGO composites for asymmetric supercapacitor applications. Mater. Chem. Phys.2017, 190, 153–165. CAS Google Scholar Byun, S.; Kim, J. H.; Song, S. H.; Lee, M.; Park, J. J.; Lee, G.; Hong, S. H.; ...