2D Phosphorene_ Epitaxial Growth and Interface Engineering for Electronic Devices
Zhang, J. L.; Han, C.; Hu, Z. H.; Wang, L.; Liu, L.; Wee, A. T. S.; Chen, W.
刊名Advanced Materials
2018
卷号30期号:47页码:11
关键词2D phosphorene electronic devices epitaxial growth interface engineering layer black phosphorus 2-dimensional materials band-gap transport-properties carrier mobility blue phosphorus graphene surface functionalization semiconductors Chemistry Science & Technology - Other Topics Materials Science Physics
ISSN号0935-9648
DOI10.1002/adma.201802207
英文摘要Black phosphorus (BP), first synthesized in 1914 and rediscovered as a new member of the family of 2D materials in 2014, combines many extraordinary properties of graphene and transition-metal dichalcogenides, such as high charge-carrier mobility, and a tunable direct bandgap. In addition, it displays other distinguishing properties, e.g., ambipolar transport and highly anisotropic properties. The successful application of BP in electronic and optoelectronic devices has stimulated significant research interest in other allotropes and alloys of 2D phosphorene, a class of 2D materials consisting of elemental phosphorus. As an atomically thin sheet, the various interfaces presented in 2D phosphorene (substrate/phosphorene, electrode/phosphorene, dielectric/phosphorene, atmosphere/phosphorene) play dominant roles in its bottom-up synthesis, and determine several key characteristics for the devices, such as carrier injection, carrier transport, carrier concentration, and device stability. The rational design/engineering of interfaces provides an effective way to manipulate the growth of 2D phosphorene, and modulate its electronic and optoelectronic properties to realize high-performance multifunctional devices. Here, recent progress of the interface engineering of 2D phosphorene is highlighted, including the epitaxial growth of single-layer blue phosphorus on different substrates, surface functionalization of BP for high-performance complementary devices, and the investigation of the BP degradation mechanism in ambient air.
内容类型期刊论文
源URL[http://ir.ciomp.ac.cn/handle/181722/60857]  
专题中国科学院长春光学精密机械与物理研究所
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Zhang, J. L.,Han, C.,Hu, Z. H.,et al. 2D Phosphorene_ Epitaxial Growth and Interface Engineering for Electronic Devices[J]. Advanced Materials,2018,30(47):11.
APA Zhang, J. L..,Han, C..,Hu, Z. H..,Wang, L..,Liu, L..,...&Chen, W..(2018).2D Phosphorene_ Epitaxial Growth and Interface Engineering for Electronic Devices.Advanced Materials,30(47),11.
MLA Zhang, J. L.,et al."2D Phosphorene_ Epitaxial Growth and Interface Engineering for Electronic Devices".Advanced Materials 30.47(2018):11.
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