Your search keyword '"Upreti, Dinesh"' showing total 15 results

1. Medium-entropy Engineering of magnetism in layered antiferromagnet CuxNi2(1-x)CrxP2S6

Author

Upreti, Dinesh, Basnet, Rabindra, Sharma, M. M., Chhetri, Santosh Karki, Acharya, Gokul, Nabi, Md Rafique Un, Sakon, Josh, Mortazavi, Mansour, and Hu, Jin

Subjects

Condensed Matter - Materials Science

Abstract

Engineering magnetism in layered magnets could result in novel phenomena related to two-dimensional (2D) magnetism, which can be useful for fundamental research and practical applications. Extensive doping efforts such as substitution and intercalation have been adopted to tune antiferromagnetic (AFM) properties in M2P2X6 compounds. The substitutional doping in this material family has mainly focused on bimetallic substitution. Recently, the metal substitution can also be extended to more than two metal elements, leading to medium and high-entropy alloys (MEAs and HEAs), which are fairly underexplored in layered magnetic systems including M2P2X6. In this work, we explored the magnetic properties of the previously unreported Cu- and Cr-substituted Ni2P2S6 i.e., CuxNi2(1-x)CrxP2S6. Our study reveals a relatively systematic evolution of AFM phases with substitution than that observed in traditional bimetallic substitution in M2P2X6. Furthermore, the Cu and Cr substitutions in Ni2P2S6 are found to enhance the ferromagnetic (FM) correlation, which is also accompanied by a possible weak FM phase at low temperatures for the intermediate compositions from 0.32 to 0.80. Our work provides a strategy to establish ferromagnetism in AFM M2P2X6 that can also be used for property tuning in other layered magnets.

Published

2024

2. Tuning Magnetism in Ising-type van der Waals Magnet FePS3 by Lithium Intercalation

Author

Upreti, Dinesh, Basnet, Rabindra, Sharma, M. M., Chhetri, Santosh Karki, Acharya, Gokul, Nabi, Md Rafique Un, Sakon, Josh, Da, Bo, Mortazavi, Mansour, and Hu, Jin

Subjects

Condensed Matter - Materials Science

Abstract

Recently, layered materials transition metal thiophosphate MPX3 (M = transition metals, X = S or Se) have gained significant attention because of their rich magnetic, optical, and electronic properties. Specifically, the diverse magnetic structures and the robustness of magnetism in the two-dimensional limit have made them prominent candidates to study two-dimensional magnetism. Numerous efforts such as substitutions and interlayer intercalations have been made to tune the properties of these materials, which has greatly deepened the understanding of the underlying mechanisms that govern the properties. In this work, we focus on modifying the magnetism of Ising-type antiferromagnet FePS3 using electrochemical lithium intercalation. Our work unveils the effectiveness of electrochemical intercalation as a controllable tool to modulating magnetism, including tuning magnetic ordering temperature and inducing low temperature spin-glass state, offering an approach for implementing this material into applications.

Published

2024

3. Evolution of Magnetism in Magnetic Topological Semimetal NdSb$_x$Te$_{2-x+\delta}$

Author

Chhetri, Santosh Karki, Basnet, Rabindra, Wang, Jian, Pandey, Krishna, Acharya, Gokul, Nabi, Md Rafique Un, Upreti, Dinesh, Sakon, Josh, Mortazavi, Mansour, and Hu, Jin

Subjects

Condensed Matter - Materials Science

Abstract

Magnetic topological semimetals LnSbTe (Ln = Lanthanide) have attracted intensive attention because of the presence of interplay between magnetism, topological, and electron correlations depending on the choices of magnetic Ln elements. Recently, varying Sb-Te composition has been found to effectively control the electronic and magnetic states in LnSbxTe$_{2-x}$. With this motivation, we report the evolution of magnetic properties with Sb-Te substitution in NdSb$_x$Te$_{2-x+\delta}$. Our work reveals the interesting non-monotonic change in magnetic ordering temperature with varying composition stoichiometry. In addition, reducing the Sb content x drives the reorientation of moments from in-plane (ab-plane) to out-of-plane (c-axis) direction that results in the distinct magnetic structures for two end compounds NdTe$_2$ ($x = 0$) and NdSbTe ($x = 1$). Furthermore, the moment orientation in NdSb$_x$Te$_{2-x+\delta}$ is also found to be strongly tunable upon application of weak magnetic field, leading to rich magnetic phases depending on the composition stoichiometry, temperature, and magnetic field. Such strong tuning of magnetism in this material establishes it as a promising platform for investigating tunable topological states and correlated topological physics., Comment: 35 pages, 5 figures

Published

2024

4. Field-induced spin polarization in lightly Cr-substituted layered antiferromagnet NiPS3

Author

Basnet, Rabindra, Upreti, Dinesh, Patel, Taksh, Chhetri, Santosh Karki, Acharya, Gokul, Nabi, Md Rafique Un, Sharma, Manish Mani, Sakon, Josh, Mortazavi, Mansour, and Hu, Jin

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Tuning magnetic properties in layered magnets is an important route to realize novel phenomenon related to two-dimensional (2D) magnetism. Recently, tuning antiferromagnetic (AFM) properties through substitution and intercalation techniques have been widely studied in MPX3 compounds. Interesting phenomena, such as diverse AFM structures and even the signatures of ferrimagnetism, have been reported. However, long-range ferromagnetic (FM) ordering has remained elusive. In this work, we explored the magnetic properties of the previously unreported Cr-substituted NiPS3. We found that Cr substitution is extremely efficient in controlling spin orientation in NiPS3. Our study reveals a field-induced spin polarization in lightly (9%) Cr-substituted NiPS3, which is likely attributed to the attenuation of AFM interactions and magnetic anisotropy due to Cr doping. Our work provides a possible strategy to achieve FM phase in AFM MPX3, which could be useful for investigating 2D magnetism as well as potential device applications.

Published

2024

5. Distinct Composition-Dependent Topological Hall Effect in Mn2-xZnxSb

Author

Nabi, Md Rafique Un, Li, Yue, Velthuis, Suzanne G E te, Chhetri, Santosh Karki, Upreti, Dinesh, Basnet, Rabindra, Acharya, Gokul, Phatak, Charudatta, and Hu, Jin

Subjects

Condensed Matter - Materials Science

Abstract

Spintronics, an evolving interdisciplinary field at the intersection of magnetism and electronics, explores innovative applications of electron charge and spin properties for advanced electronic devices. The topological Hall effect, a key component in spintronics, has gained significance due to emerging theories surrounding noncoplanar chiral spin textures. This study focuses on Mn2-xZnxSb, a material crystalizing in centrosymmetric space group with rich magnetic phases tunable by Zn contents. Through comprehensive magnetic and transport characterizations, we found that the high-Zn (x>0.6) samples display THE which is enhanced with decreasing temperature, while THE in the low-Zn (x<0.6) samples show an opposite trend. The coexistence of those distinct temperature dependences for THE suggests very different magnetic interactions/structure for different compositions and underscores the strong coupling between magnetism and transport in Mn2-xZnxSb. Our findings contribute to understanding topological magnetism in centrosymmetric tetragonal lattices, establishing Mn2-xZnxSb as a unique platform for exploring tunable transport effects and opening avenues for further exploration in the realm of spintronics., Comment: 23 pages, 6 Figures, Accepted

Published

2024

6. Understanding and tuning magnetism in layered Ising-type antiferromagnet FePSe3 for potential 2D magnet

Author

Basnet, Rabindra, Patel, Taksh, Wang, Jian, Upreti, Dinesh, Chhetri, Santosh Karki, Acharya, Gokul, Nabi, Md Rafique Un, Sakon, Josh, and Hu, Jin

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Recent development in two-dimensional (2D) magnetic materials have motivated the search for new van der Waals magnetic materials, especially Ising-type magnets with strong magnetic anisotropy. Fe-based MPX3 (M = transition metal, X = chalcogen) compounds such as FePS3 and FePSe3 both exhibit an Ising-type magnetic order, but FePSe3 receives much less attention compared to FePS3. This work focuses on establishing the strategy to engineer magnetic anisotropy and exchange interactions in this less-explored compound. Through chalcogen and metal substitutions, the magnetic anisotropy is found to be immune against S substitution for Se whereas tunable only with heavy Mn substitution for Fe. In particular, Mn substitution leads to a continuous rotation of magnetic moments from the out-of-plane direction towards in-plane. Furthermore, the magnetic ordering temperature displays non-monotonic doping dependence for both chalcogen and metal substitutions but due to different mechanisms. These findings provide deeper insight into the Ising-type magnetism in this important van der Waals material, shedding light on the study of other Ising-type magnetic systems as well as discovering novel 2D magnets for potential applications in spintronics.

Published

2024

7. Coupling Between Magnetic and Transport Properties in Magnetic Layered Material Mn2-xZnxSb

Author

Nabi, Md Rafique Un, Basnet, Rabindra, Pandey, Krishna, Chhetri, Santosh Karki, Upreti, Dinesh, Acharya, Gokul, Wang, Fei, Fereidouni, Arash, Churchill, Hugh O. H., Guan, Yingdong, Mao, Zhiqiang, and Hu, Jin

Subjects

Condensed Matter - Materials Science

Abstract

We synthesized single crystals for Mn2-xZnxSb and studied their magnetic and electronic transport properties. This material system displays rich magnetic phase tunable with temperature and Zn composition. In addition, two groups of distinct magnetic and electronic properties, separated by a critical Zn composition of x = 0.6, are discovered. The Zn-less samples are metallic and characterized by a resistivity jump at the magnetic ordering temperature, while the Zn-rich samples lose metallicity and show a metal-to-insulator transition-like feature tunable by magnetic field. Our findings establish Mn2-xZnxSb as a promising material platform that offers opportunities to study how the coupling of spin, charge, and lattice degrees of freedom governs interesting transport properties in 2D magnets, which is currently a topic of broad interest., Comment: 23 pages, 5 figures, Figures are at the end of the manuscript

Published

2023

8. Evolution of magnetism in the magnetic topological semimetal NdSbxTe2−x+δ

Author

Karki Chhetri, Santosh, primary, Basnet, Rabindra, additional, Wang, Jian, additional, Pandey, Krishna, additional, Acharya, Gokul, additional, Nabi, Md Rafique Un, additional, Upreti, Dinesh, additional, Sakon, Josh, additional, Mortazavi, Mansour, additional, and Hu, Jin, additional

Published

2024

9. Synthesis, Crystal and Electronic Structures, and Magnetic and Electrical Transport Properties of Bismuthides NdZn0.6Bi2and (La0.5RE0.5)Zn0.6Bi2(RE = Pr or Nd)

Author

Prasad, Karishma, Upreti, Dinesh, Un Nabi, Md. Rafique, Oppong, Richeal A., Wang, Fei, Shinde, Manish, Hu, Jin, and Wang, Jian

Abstract

Bismuth is a good constituent element for many quantum materials due to its large atomic number, 6s26p3orbitals, and strong spin–orbital coupling. In this work, three new bismuthides, NdZn0.6Bi2, (La0.5Pr0.5)Zn0.6Bi2, and (La0.5Nd0.5)Zn0.6Bi2, were grown by a metal flux method, and their crystal structures were accurately determined by single-crystal X-ray diffraction. These new bismuthides belong to the RE-T-Pn2(RE = La–Lu, T = Mn, Fe, Co, Ni, or Zn, and Pn = P, As, Sb, or Bi) family, are isostructural, and crystallize in the HfCuSi2structure type. The bismuth elements have two possible oxidation states, Bi3–and Bi–, which were studied by X-ray photoelectron spectroscopy (XPS). Two binding energy peaks of 155.91 and 161.23 eV were observed for Bi atoms within NdZn0.6Bi2, and similar binding energy peaks were detected in NdBi and LiBi. XPS also confirmed the trivalent nature of Nd, which was further verified by magnetic measurements. Additionally, magnetic measurements revealed that NdZn0.6Bi2exhibits an antiferromagnetic transition around 3 K, while the mixed-cation compounds do not show any magnetic transition down to 2 K. Electronic transport measurements reveal weak magnetoresistance in all three compounds, with a maximum value of ∼25% at 2 K and 9 T for (La0.5Nd0.5)Zn0.6Bi2.

Published

2024

10. Understanding and Tuning Magnetism in Layered Ising‐Type Antiferromagnet FePSe3 for Potential 2D Magnet.

Author

Basnet, Rabindra, Patel, Taksh, Wang, Jian, Upreti, Dinesh, Chhetri, Santosh Karki, Acharya, Gokul, Nabi, Md Rafique Un, Sakon, Josh, and Hu, Jin

Subjects

MAGNETISM, MAGNETIC traps, MAGNETIC materials, MAGNETIC anisotropy, MAGNETS, CUPRATES, SUPERCONDUCTING magnets

Abstract

Recent developments in 2D magnetic materials have motivated the search for new van der Waals magnetic materials, especially Ising‐type magnets with strong magnetic anisotropy. Fe‐based MPX3 (M = transition metal, X = chalcogen) compounds such as FePS3 and FePSe3 both exhibit an Ising‐type magnetic order, but FePSe3 receives much less attention compared to FePS3. This work focuses on establishing the strategy to engineer magnetic anisotropy and exchange interactions in this less‐explored compound. Through chalcogen and metal substitutions, the magnetic anisotropy is found to be immune against S substitution for Se whereas tunable only with heavy Mn substitution for Fe. In particular, Mn substitution leads to a continuous rotation of magnetic moments from the out‐of‐plane direction toward the in‐plane. Furthermore, the magnetic ordering temperature displays non‐monotonic doping dependence for both chalcogen and metal substitutions but due to different mechanisms. These findings provide deeper insight into the Ising‐type magnetism in this important van der Waals material, shedding light on the study of other Ising‐type magnetic systems as well as discovering novel 2D magnets for potential applications in spintronics. [ABSTRACT FROM AUTHOR]

Published

2024

11. Magneto-transport study on Sn-rich Sn1−xGex thin films enabled by CdTe buffer layer.

Author

Basnet, Rabindra, Upreti, Dinesh, McCarthy, Tyler T., Ju, Zheng, McMinn, Allison M., Sharma, M. M., Zhang, Yong-Hang, and Hu, Jin

Subjects

THIN films, BUFFER layers, GERMANIUM films, MOLECULAR beam epitaxy, SUBSTRATES (Materials science), FREQUENCIES of oscillating systems, FLUX pinning

Abstract

α-Sn, generally known as gray tin, has attracted significant scientific interest due to its potential to host novel topological phases. Studying the transport properties of α-Sn thin films grown on the InSb substrate has been challenging, as the InSb substrate also significantly contributes to the transport properties. In this article, we report a novel approach to epitaxially grow α-Sn thin films on an InSb substrate with a resistive buffer layer of CdTe. Thin films of α−Sn1−xGex (x = 0, 0.025) alloy of 15 nm thickness have been grown using molecular beam epitaxy. The high quality of the samples has been determined through high-resolution x-ray diffraction. The CdTe buffer layer has high resistance and acts as an insulating virtual substrate, which significantly suppresses contribution from InSb. Magnetotransport measurements show clear Shubnikov–de Hass oscillations in α−Sn1−xGex (x = 0, 0.025) thin films. A change in oscillation frequency is observed upon alloying with Ge, implying a modification in the electronic structure and demonstrating the effectiveness of the CdTe buffer layer approach. This work provides a new approach that enables the electronic transport characterization of the α−Sn1−xGex alloy system, which enables the study of the topological quantum states using electronic transport and their device applications. [ABSTRACT FROM AUTHOR]

Published

2024

12. Coupling between magnetic and transport properties in magnetic layered material Mn2-xZnxSb

Author

Nabi, Md Rafique Un, primary, Basnet, Rabindra, additional, Pandey, Krishna, additional, Chhetri, Santosh Karki, additional, Upreti, Dinesh, additional, Acharya, Gokul, additional, Wang, Fei, additional, Fereidouni, Arash, additional, Churchill, Hugh O H, additional, Guan, Yingdong, additional, Mao, Zhiqiang, additional, and Hu, Jin, additional

Published

2023

13. Coupling between Magnetic and Transport Properties in Magnetic Layered Material Mn 2-xZn xSb

Author

Nabi, Md Raifque Un, primary, Basnet, Rabindra, additional, Pandey, Krishna, additional, Chhetri, Santosh Karki, additional, Upreti, Dinesh, additional, Acharya, Gokul, additional, Wang, Fei, additional, Fereidouni, Arash, additional, Churchill, Hugh O. H., additional, Guan, Yingdong, additional, Mao, Zhiqiang, additional, and Hu, Jin, additional

Published

2023

14. Synthesis, Crystal and Electronic Structures, and Magnetic and Electrical Transport Properties of Bismuthides NdZn 0.6 Bi 2 and (La 0.5 RE 0.5 )Zn 0.6 Bi 2 (RE = Pr or Nd).

Author

Prasad K, Upreti D, Un Nabi MR, Oppong RA, Wang F, Shinde M, Hu J, and Wang J

Abstract

Bismuth is a good constituent element for many quantum materials due to its large atomic number, 6s 2 6p 3 orbitals, and strong spin-orbital coupling. In this work, three new bismuthides, NdZn 0.6 Bi 2 , (La 0.5 Pr 0.5 )Zn 0.6 Bi 2 , and (La 0.5 Nd 0.5 )Zn 0.6 Bi 2 , were grown by a metal flux method, and their crystal structures were accurately determined by single-crystal X-ray diffraction. These new bismuthides belong to the RE-T-Pn 2 (RE = La-Lu, T = Mn, Fe, Co, Ni, or Zn, and Pn = P, As, Sb, or Bi) family, are isostructural, and crystallize in the HfCuSi 2 structure type. The bismuth elements have two possible oxidation states, Bi 3- and Bi - , which were studied by X-ray photoelectron spectroscopy (XPS). Two binding energy peaks of 155.91 and 161.23 eV were observed for Bi atoms within NdZn 0.6 Bi 2 , and similar binding energy peaks were detected in NdBi and LiBi. XPS also confirmed the trivalent nature of Nd, which was further verified by magnetic measurements. Additionally, magnetic measurements revealed that NdZn 0.6 Bi 2 exhibits an antiferromagnetic transition around 3 K, while the mixed-cation compounds do not show any magnetic transition down to 2 K. Electronic transport measurements reveal weak magnetoresistance in all three compounds, with a maximum value of ∼25% at 2 K and 9 T for (La 0.5 Nd 0.5 )Zn 0.6 Bi 2 .

Published

2024

15. Aspirin Desensitization and Percutaneous Coronary Intervention in a Patient with Aspirin Hypersensitivity and Acute Coronary Syndrome: A Case Report.

Author

Acharya S, Gyawali S, Kharel S, Upreti D, Bhusal KR, Maharjan S, Shrestha H, and Gajurel RM

Subjects

Humans, Male, Aged, Clopidogrel adverse effects, Clopidogrel administration & dosage, Clopidogrel therapeutic use, Aspirin adverse effects, Aspirin administration & dosage, Acute Coronary Syndrome therapy, Desensitization, Immunologic methods, Drug Hypersensitivity therapy, Drug Hypersensitivity diagnosis, Percutaneous Coronary Intervention methods, Platelet Aggregation Inhibitors adverse effects, Platelet Aggregation Inhibitors administration & dosage

Abstract

Hypersensitivity to aspirin is rare disorder occurring in 1.88% of the patients. Aspirin-hypersensitive patients requiring single antiplatelet agent may be treated with clopidogrel, an alternative antiplatelet agent. However, aspirin desensitization is more cost-effective than the usage of clopidogrel in these patients. Furthermore, aspirin desensitization is of greater value in patients requiring dual antiplatelet therapy, for example following procedures like percutaneous transluminal coronary angioplasty (PTCA) instead of using non-aspirin-based combinations. Herein, we report a 74-year-old hypertensive male presented with features of acute coronary syndrome and planned for percutaneous transluminal coronary angioplasty of RCA followed by dual antiplatelet therapy. Since he had aspirin allergy, desensitization was done using rapid desensitization protocol for which he responded well. This case highlights the importance of aspirin-desensitization in patients with aspirin allergy instead of choosing non-aspirin based antiplatelet agents.

Published

2024