2020
DOI: 10.1103/physrevb.101.214413
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Critical behavior and magnetocaloric effect of the quasi-two-dimensional room-temperature ferromagnet Cr4Te5

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Cited by 43 publications
(34 citation statements)
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“…To explore the magnetic properties of Cr 4 Te 5 , magnetization as a function of temperature M(T) and field M(H) were measured with the field applied parallel to ab-plane (H ab) and c-axis (H c). The Curie temperature 338 K found in this study is higher than any known composition in the Cr x Te y family in their bulk phase [25,36]. Splitting in the M(T) curves between ZFC and FC data at T C is attributed to the competition between FM and AFM phases at low temperatures [37,38].…”
Section: A Magnetization Measurementscontrasting
confidence: 44%
See 1 more Smart Citation
“…To explore the magnetic properties of Cr 4 Te 5 , magnetization as a function of temperature M(T) and field M(H) were measured with the field applied parallel to ab-plane (H ab) and c-axis (H c). The Curie temperature 338 K found in this study is higher than any known composition in the Cr x Te y family in their bulk phase [25,36]. Splitting in the M(T) curves between ZFC and FC data at T C is attributed to the competition between FM and AFM phases at low temperatures [37,38].…”
Section: A Magnetization Measurementscontrasting
confidence: 44%
“…A Recent theoretical study suggested that the layered Cr x Te y systems are potential candidates to realize the muchanticipated room-temperature 2D ferromagnetism in the bulk [21]. Since then, variety of Cr x Te y compounds have been grown experimentally and studied for their peculiar 2D ferromagnetism, including, CrTe [22], Cr 2 Te 3 [23], Cr 3 Te 4 [24], Cr 4 Te 5 [25], and Cr 5 Te 8 [26]. Out of these, Cr 4 Te 5 has been reported to show highest T C ≈ 318 K among this family of compounds, to date in the bulk form.…”
Section: Introductionmentioning
confidence: 99%
“…Prominent among magnetic TMDs is Cr1+δTe2 -a self-intercalated TMD with tunable valency (Cr 2+ (3d 4 ) to Cr 4+ (3d 2 )) -which therefore serves as a promising candidate for modulating electronic and magnetic properties over a wide range (Fig. 1a) [37,38,39,40,41,42,43,44,45,46,47,48,49,50,51]. Our recent efforts have enabled a unique recipe to realize epitaxial thin films of Cr1+δTe2 over wide range of doping, with tunable magnetic properties [52].…”
Section: A Introductionmentioning
confidence: 99%
“…The chemical content of the as-synthesized Cr 1.2 Te 2 was quantified to be a mole ratio of 1.2:2 by inductively coupled plasma-atomic emission spectrometry (Table S2, Supporting Information). X-ray diffraction characterization (Figure d) reveals that the as-synthesized Cr 1.2 Te 2 has the same crystal structure as CrTe 2 , containing the space group P 3̅ m 1 and exhibiting a crystal structure distinguished from other reported telluride compounds (Figure S1, Supporting Information) such as Cr 2 Te 3 , Cr 3 Te 4 , Cr 3 Te 5 , Cr 4 Te 5 , and Cr 5 Te 8 . The high-resolution scanning transmission electron microscopy (HRSTEM) image of the as-synthesized Cr 1.2 Te 2 (Figure e) and its corresponding simulation (Figure f) further confirm that the crystal structure duplicates that of the reported CrTe 2 …”
mentioning
confidence: 99%