The relation of the energy of electronic state with the interior periodic potential in quantum dot given by matrix method

Luo, Qiang; Feng, S.M.; Gu, Liqiang; Liu, J.X.; Tang, Xiao-Jie

doi:10.1016/j.physb.2015.10.037

Cited by 3 publications

(2 citation statements)

References 17 publications

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“…(16), (20)and (23) are defined as the eigen equation of electronic energy in quantum dot, which can clearly describe the relationship of electronic energy with the surface potential, the internal periodic potential and structure parameters. They can more clearly describe the electronic state under different quantum number compared with that given only when 0 χ > in [17]. Especially, these relationships are simpler and clearer than the eigen equation of quantum dot in [17], which are valuable for the further study of quantum dot.…”

Section: Theorymentioning

confidence: 99%

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Eigen-equation of Electronic Energy in Quantum Dot

Wu¹,

Feng²

2016

ujpa

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In this paper, we present one simple model of quantum dot to describe the potential. Based on the boundary continuity of wave function and its derivative, using the Chebyshev polynomial of the second kind and matrix theory, we deduced one eigen-equation of electronic energy which can clearly describe the relationship between the energy level and the surface potential in quantum dot. The further study shows that the eigen-equation of electronic energy is different when the material of quantum dot is different.

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Section: Theorymentioning

confidence: 99%

“…They can more clearly describe the electronic state under different quantum number compared with that given only when 0 χ > in [17]. Especially, these relationships are simpler and clearer than the eigen equation of quantum dot in [17], which are valuable for the further study of quantum dot.…”

Section: Theorymentioning

confidence: 99%

Eigen-equation of Electronic Energy in Quantum Dot

Wu¹,

Feng²

2016

ujpa

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Energy Levels of Nanodots Inside Semiconductor Nanowires

Davlatov,

Gulyamov,

Urinboev

2024

Braz J Phys

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Preparation of Chitosan-Gold and Chitosan-Silver Nanodrug Carrier Using QDs

Lee¹,

Kang²

2016

Korean Chemical Engineering Research

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− A drug transport carrier could be used for safe send of drugs to the affected region in a human body. The chitosan is adequate for the drug delivery carrier because of adaptable to living body. The gold, a metallic nanoparticles, tends to form a nano complex at rapidly when it combined with chitosan because of its negative charge. having energy from the other, outer gold nano-complex make heat due to its property to release the contained drugs to the target area. Silver could be also formed an useful biocompatible nano-composites with chitosan which should be used as an useful drug transfer carrier because its special ability to protect microbial contamination. Being one of the oxidized nano metals, Fe 3 O 4 is nontoxic and has been used for its magnetic characteristics. In this study, the control of catalyst, reducing agent, and solvent amount. The chitosan-Fe 3 O 4 -gold & silver nanoshell have been changed to form about 100 nm size by ionic bond between the amine group, an end group of chitosan, and the metal. It was observed the change in order to seek for its optimum reaction condition as a drug transfer carrier.

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The relation of the energy of electronic state with the interior periodic potential in quantum dot given by matrix method

Cited by 3 publications

References 17 publications

Eigen-equation of Electronic Energy in Quantum Dot

Eigen-equation of Electronic Energy in Quantum Dot

Energy Levels of Nanodots Inside Semiconductor Nanowires

Preparation of Chitosan-Gold and Chitosan-Silver Nanodrug Carrier Using QDs

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