Tuning<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mi>g</mml:mi></mml:math>factors of core-shell nanoparticles by controlled positioning of magnetic impurities

Sanders, G. D.; Musfeldt, J. L.; Stanton, C. J.

doi:10.1103/physrevb.93.075431

Cited by 3 publications

(2 citation statements)

References 80 publications

(80 reference statements)

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“…This happens due to the presence of the magnetic ions inside the material and the tendency to align themselves in the direction of the applied magnetic field. Theoretical modeling of magneto-optical and electronic property of core-shell nanoparticles of CdS-ZnS, doped with magnetic impurities of Mn showed that, these nanocrystals can give an attuned value of g over a wide range and make them suitable for spintronics devices, if the position of the magnetic impurities can be controlled [63]. Spectral fingerprints of the spin-spin interactions between the host excitons and the dopant is also revealed by single particle spectroscopy with discrete projections of individual Mn +2 ions observed from emission peaks.…”

Section: Properties and Applications Of Dmsqdsmentioning

confidence: 99%

Dilute Magnetic Semiconducting Quantum Dots: Smart Materials for Spintronics

Baruah¹,

Narayan²

2018

Nonmagnetic and Magnetic Quantum Dots

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The present day world involved in the fabrication of miniaturized smart devices is in continuous quest of materials with better optoelectronic and magneto-electronic efficiency. Effective incorporation of dopants into semiconductor lattices have been accepted as a primary means of controlling electrical, optical, magnetic and other physico-chemical properties of semiconductors. Manipulations in magnetic spin within a semiconducting material have lead to an effective research for potential ferromagnets with semiconducting properties, leading to an important field, dilute magnetic semiconductors (DMS). On the other hand, quantum dots (QDs) have been registered to be quantum confined nanocrystals with unique optoelectronic properties, having a wide range of potential applications. QDs experienced rapid development leading to the concept of dilute magnetic semiconducting quantum dots (DMSQDs), where transition metals with a few to several atomic percentages, having unpaired d-electrons, are doped in order to manipulate their opto-magnetic properties. These materials are fabricated by alloying transition metals with Group II-VI, III-V and IV-IV elements resulting in multi-component systems. They have tremendous applications in the spintronics industry, where electronic properties are controlled by spin degree of freedom. The present report reveals the significance, electronic origination of the fact, synthesis and their applications toward the fabrication of spintronics devices.

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Section: Properties and Applications Of Dmsqdsmentioning

confidence: 99%

Dilute Magnetic Semiconducting Quantum Dots: Smart Materials for Spintronics

Baruah¹,

Narayan²

2018

Nonmagnetic and Magnetic Quantum Dots

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“…In fact, theoretical modelling of electronic and magnetooptical properties of core-shell nanoparticles doped with magnetic impurity, i.e. Mn-doped CdS-ZnS, predicts that, by controlling the position of magnetic impurities, the g factor in these nanocrystals can be attuned over wide range and forge them as potential candidates for spintronic applications 57 . Spectral fingerprints of spinspin interaction between the dopant and excitons of the host are also revealed by single-particle spectroscopy with discrete spin projections of individual Mn 2+ ions as obtained from spectrally well-resolved emission peaks.…”

Section: Properties Of Dms Qdsmentioning

confidence: 99%

Recent Advances in Magnetic Ion-Doped Semiconductor Quantum Dots

Makkar¹,

Viswanath²

2017

Current Science

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Dilute magnetic semiconductor (DMS) quantum dots (QDs) have potential to be used as basic working components of spin-based electronic devices. Therefore it is important to study these materials from fundamental and technological viewpoints. Quantum confinement effects are known to enhance exchange interactions and induce properties that were previously not observed in bulk materials. In fact, properties are known to alter dramatically when dimensions are reduced to nanometre size regime. In this review we briefly discuss the recent advances in chemical (synthetic) and physical (properties) aspects of DMS QDs. We first discuss the various issues involved in the synthesis of DMS QDs followed by a discussion of the solutions obtained so far. We then discuss the interesting properties of DMS QDs with emphasis on their magnetic, magneto-optical and magneto-electrical properties arising from the cooperative effects of spinexchange interactions.

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Electronic Properties Study of Mn-Doped Iii-V Semiconductor Quantum Dots with Cylindrical Symmetry

NEFFATI,

Hamrita

2024

Preprint

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Tuninggfactors of core-shell nanoparticles by controlled positioning of magnetic impurities

Cited by 3 publications

References 80 publications

Dilute Magnetic Semiconducting Quantum Dots: Smart Materials for Spintronics

Dilute Magnetic Semiconducting Quantum Dots: Smart Materials for Spintronics

Recent Advances in Magnetic Ion-Doped Semiconductor Quantum Dots

Electronic Properties Study of Mn-Doped Iii-V Semiconductor Quantum Dots with Cylindrical Symmetry

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