Optical properties of quasi-type-II structure in GaAs/GaAsSb/GaAs coaxial single quantum-well nanowires

Li, Haolin; Tang, Jilong; Kang, Yong; Zhao, Haixia; Fang, Dan; Fang, Xuan; Chen, Rui; Wei, Zhipeng

doi:10.1063/1.5053844

Cited by 116 publications

(35 citation statements)

References 25 publications

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“…As the temperature increases to about 50 • C, the structure of HIPs takes a tetragonal phase with the space group P4/mbm, and at temperatures above 300 • C, they are in the original Coatings 2021, 11, 1173 2 of 13 cubic phase with the space group Pm3m. In hybrid perovskite structures, by changing the halogens from iodine to bromine and then chlorine, the BX 6 octahedral volume decreases, resulting in a reduction in total volume of the structures [85][86][87][88][89][90].To acquire a comprehensive knowledge of the electrical and optical properties of semiconductor compounds, the band structure, electron density, charge carrier mobility, density of states, and dielectric function must be investigated [91][92][93][94][95].…”

Section: Introductionmentioning

confidence: 99%

RETRACTED: The Effect of Structural Phase Transitions on Electronic and Optical Properties of CsPbI3 Pure Inorganic Perovskites

et al. 2021

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Hybrid inorganic perovskites (HIPs) have been developed in recent years as new high-efficiency semiconductors with a wide range of uses in various optoelectronic applications such as solar cells and light-emitting diodes (LEDs). In this work, we used a first-principles theoretical study to investigate the effects of phase transition on the electronic and optical properties of CsPbI3 pure inorganic perovskites. The results showed that at temperatures over 300 °C, the structure of CsPbI3 exhibits a cube phase (pm3m) with no tilt of PbI6 octahedra (distortion index = 0 and bond angle variance = 0). As the temperature decreases (approximately to room temperature), the PbI6 octahedra is tilted, and the distortion index and bond angle variance increase. Around room temperature, the CsPbI3 structure enters an orthorhombic phase with two tilts PbI6 octahedra. It was found that changing the halogens in all structures reduces the volume of PbI6 octahedra. The tilted PbI6 octahedra causes the distribution of interactions to vary drastically, which leads to a change in band gap energy. This is the main reason for the red and blue shifts in the absorption spectrum of CsPbI3. In general, it can be said that the origin of all changes in the structural, electronic, and optical properties of HIPs is the changes in the volume, orientation, and distortion index of PbI6 octahedra.

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Section: Introductionmentioning

confidence: 99%

RETRACTED: The Effect of Structural Phase Transitions on Electronic and Optical Properties of CsPbI3 Pure Inorganic Perovskites

et al. 2021

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“…In quasi-type-II band alignment, there are two recombination channels for excitons at the same time, one is the recombination between the photoexcited electrons and holes are localized in the well material (type-I like recombination), and the other is the recombination between the photoexcited electron and hole are localized in two different semiconductors (type-II like recombination). The band structure of GaAs 1Àx Sb x in the quantum well can be described by the empirical model proposed by Teissier et al 13,16 As it is shown in Fig. 2(d), the conduction bandgap offset in sample A and sample B is $20 meV and $28 meV, respectively.…”

Section: Resultsmentioning

confidence: 90%

“…Specic growth parameters can be referred to our previous publication. 13,14 The Sb component in the GaAs 1Àx Sb x layer can be wellcontrolled by adjusting the beam ratio of the As and Sb uxs. For sample A, the beam equivalent pressure of As was set to 2.1 la10 À6 torr and the Sb ux was set to 1.9 s 10 À7 torr.…”

Section: Methodsmentioning

confidence: 99%

Optical characteristics of GaAs/GaAsSb/GaAs coaxial single quantum-well nanowires with different Sb components

Tang

Pang

et al. 2019

RSC Adv.

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“…The bandgap of the material is changed because of the discretization of the electron energy, which can be controlled by the nanometers size particles. The nanostructured glasses especially nano-chalcogenides show a dramatic change in their optical and electronic properties on reduction of size below the excitonic size [95,96]. Depending on the deposition technique used, the micro/nanostructure of thin films can be more or less complex.…”

Section: Optical Propertiesmentioning

confidence: 99%

Recent innovations in properties of nanostructured glasses and composites

Deepika¹,

Dixit

Singh

et al. 2021

Journal of Experimental Nanoscience

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The thrust to invent new materials and technology has been ever increasing due to technological challenges in progressive world. Among new materials, nanomaterials possess superior optical, electrical, magnetic, mechanical, and thermal properties, which have made them suitable for a multitude of applications. The present review paper deals with recent advances in properties of nanostructured glasses and composites in terms optical, electrical, mechanical and thermal properties. A brief discussion has been done on fabrication method of nanostructured glasses. The review of optical properties shows that nanostructured glasses show both direct and indirect band gap and this tuning of band gap depends on extent of nano structuring of samples. The electrical properties also show enhancement in electrical conductivity on nano-structuring of glasses compared to their bulk counterparts. The changes in mechanical and thermal properties of nanostructured glasses and composites are attributed to many microstructural features like grain size and shape, their distribution, pores and their distribution, other flaws/defects and their distribution, surface condition, impurity level, second phases/dopants, stress, duration of its application and temperature effect on the samples. Literature reports that nano structuring leads to enhanced phonon boundary scattering which reduces the thermal conductivity.

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Optical properties of quasi-type-II structure in GaAs/GaAsSb/GaAs coaxial single quantum-well nanowires

Cited by 116 publications

References 25 publications

RETRACTED: The Effect of Structural Phase Transitions on Electronic and Optical Properties of CsPbI3 Pure Inorganic Perovskites

RETRACTED: The Effect of Structural Phase Transitions on Electronic and Optical Properties of CsPbI3 Pure Inorganic Perovskites

Optical characteristics of GaAs/GaAsSb/GaAs coaxial single quantum-well nanowires with different Sb components

Recent innovations in properties of nanostructured glasses and composites

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