Dilute Magnetic Semiconducting Quantum Dots: Smart Materials for Spintronics

Baruah, Jejiron Maheswari; Narayan, Jyoti

doi:10.5772/intechopen.73286

Cited by 5 publications

(6 citation statements)

References 69 publications

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“…Unlike other transition metals, manganese possesses distinctive characteristics owing to its half-filled d-orbitals 9 . These attributes play a crucial role in the formation of dimers when Mn interacts with additional dopant elements 10 . The bound magnetic polaron theory (BMP) 11 provides a framework to understand the impact of these dimers on the antiferromagnetic and ferromagnetic properties exhibited by DMS.…”

Section: Introductionmentioning

confidence: 99%

“…To facilitate the understanding of DMS quantum dots (DMSQDs) 10 , which are semiconducting quantum dots doped with transition metals exhibiting magnetic behavior, one must consider the profound implications of combining the distinct properties of quantum dots with the magnetic characteristics of transition metals. By incorporating the magnetic nature of DMS at the nanoscale, researchers aim to increase the efficiency of these materials in various spintronic devices 4 , expecting that the small size of quantum dots will lead to extensive interactions between d electrons and sp-shelled electrons, making DMSQDs highly efficient and miniaturized spintronic devices 4 .…”

Section: Introductionmentioning

confidence: 99%

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Adaptive Paramagnetism and Photoluminescence in Nitrogen Co-doped Mn: CdS Composite Quantum Dots

Reddy M,

Kumar Y B

2023

Orient. J. Chem

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Manganese-doped cadmium sulfide quantum dots (QDs), co-doped with nitrogen, were synthesized using the chemical co-precipitation method (CPM). Surfactant 2-mercaptoethanol (ME) was used to efficiently regulate the size of these QDs. X-ray diffraction (XRD) analyses verified that the particles fell within the nano-dimension, measuring between 1-2 nm. A Rietveld analysis with X’pert high score software (XPHS) proved that these synthesized QDs contained many phases. The energy dispersive X-ray spectroscopy (EDX) technique confirmed the successful incorporation of both manganese and nitrogen dopants into the CdS. Ultraviolet-visible analysis (UV-Vis) demonstrated a noticeable shift towards the blue end in the energy gap, indicating the presence of a quantum-confinement effect. The photoluminescence (PL) investigations revealed a significant emission peak at λ = 634 nm, linked to the transition from 4T1 to 6A1, attributed to the incorporation of Mn2+ within the CdS core. Electron paramagnetic spectroscopy (EPR) demonstrated paramagnetic characteristics. EPR assessments of the g factor (1.995) and hyperfine splitting constant (A) values (7 mT) verified the existence of nitrogen and manganese ions in the tetrahedral positions of the CdS core. The notable alterations noticed in the magnetic and optical characteristics of the fabricated quantum dots imply promising uses in optoelectronic and magneto-luminescent applications.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Adaptive Paramagnetism and Photoluminescence in Nitrogen Co-doped Mn: CdS Composite Quantum Dots

Reddy M,

Kumar Y B

2023

Orient. J. Chem

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“…Depending on the nature of the dopant, many researchers reported modifications in structural, optical, electrical, and magnetic properties. Because of its easy-tunable properties, it is useful in materials science emerging to fabricate miniaturized smart devices 1 .…”

Section: Introductionmentioning

confidence: 99%

Tunable Paramagnetism in Mn co-doped N:CdS Composite Nanoparticles

Reddy M

2023

Orient. J. Chem

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Manganese-co-doped N:CdS composite nanoparticles (CNps) have been prepared by using the co-precipitation method. 2-Mercaptoethonal is used as a surfactant to control the size of nanoparticles. X-ray diffraction (XRD) studies confirm the size of the particles in the nanorange. The Rietveld refinement with X'-pert high-score software studies show multiphase existence in as-prepared composite nanoparticles. The energy dispersive analyses of X-ray studies (EDAX) confirm the presence of doped Mn and nitrogen elements in CdS. The Fourier transform infrared spectroscopy (FTIR) studies confirm the presence of surfactant. The ultraviolet-visible spectroscopy studies (UV-VIS) show a clear blue shift in the band gap, which is an indication of the quantum confinement effect. The photoluminescence studies (PL) attribute the emission of a characteristically strong peak at λ = 632 nm, corresponding to the (4T1→6A1) transition, to the inclusion of Mn2+ in the core of the CdS lattice. The electron paramagnetic spectroscopy (EPR) studies show paramagnetic behavior. The hyperfine splitting constant (A) values around 7 mT from EPR confirms the inclusion of Mn2+ and N3- in the tetrahedral sites of the CdS core. The variation in optical and magnetic properties of as-prepared composite nanoparticles has the potential for optoelectric and magnetoluminescence devices.

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“…Интерес к исследованиям свойств кубических полупроводниковых соединений Zn 1−x Me x Se (Me -3d-элемент), относящихся к разбавленным магнитным полупроводникам (РМП) с матрицами А 2 B 6 , не ослабевает на протяжении нескольких последних десятилетий. Указанные материалы, широко применяемые в электронно-оптических устройствах [1-3] и перспективные для использования в элементах спинтроники [3][4], с развитием нанотехнологий становятся сегодня весьма привлекательными для исследования их свойств на объектах наномасштаба [5][6][7][8].…”

Section: Introductionunclassified

Характеристика микродеформационных полей в кристаллах разбавленных магнитных полупроводников ZnSe : Co по данным нейтронной дифракции

Максимов¹,

Максимова²,

Суркова³

et al. 2021

Физика Твердого Тела

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The real structure of Zn1-хCoхSe (x=0.01; 0.15) volume cubic crystals was characterized by thermal neutrons scattering method. Characteristics of resulting micro strain fields formed by atomic displacements were obtained from analyses of tangential and radial profile scans of the structure peaks measured on investigated crystals. Indications of initial lattice destabilizations revealed in both crystals demonstrate that the character of the structure distortions is quality changed by increasing of Co-impurity content from extreme small amount to close to solubility limit level. In particular, growing probability of substructure crystallites appeared from reaching of high-level doping is accompanied by strain-tensions emerged on the whole volume of crystal.

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Dilute Magnetic Semiconducting Quantum Dots: Smart Materials for Spintronics

Cited by 5 publications

References 69 publications

Adaptive Paramagnetism and Photoluminescence in Nitrogen Co-doped Mn: CdS Composite Quantum Dots

Adaptive Paramagnetism and Photoluminescence in Nitrogen Co-doped Mn: CdS Composite Quantum Dots

Tunable Paramagnetism in Mn co-doped N:CdS Composite Nanoparticles

Характеристика микродеформационных полей в кристаллах разбавленных магнитных полупроводников ZnSe : Co по данным нейтронной дифракции

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