Interplay between Structural and Thermoelectric Properties in Epitaxial Sb2+xTe3 Alloys

Cecchi, Stefano; Dragoni, Daniele; Kriegner, Dominik; Tisbi, E.; Zallo, Eugenio; Arciprete, F.; Holý, V.; Bernasconi, Marco; Calarco, Raffaella

doi:10.1002/adfm.201805184

Cited by 28 publications

(20 citation statements)

References 53 publications

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“…Compared to Sb 2 Te 3 , with higher interlayer distances and weaker interactions, there are not many exfoliation works reported too. High‐quality sheets of Sb and Sb 2 Te 3 have been obtained by epitaxial growth, mechanical and/or liquid‐phase exfoliation methods.…”

Section: Introductionmentioning

confidence: 99%

Towards Antimonene and 2D Antimony Telluride through Electrochemical Exfoliation

Marzo

Gusmão

Sofer

et al. 2020

Chemistry A European J

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Two-dimensional (2D) layered antimony (Sb) and antimony telluride (Sb 2 Te 3 )a re two valuable materials for optoelectronic devices and thermoelectric applications. Preparing high-quality sheets of thesem aterials is the initial phase to promotet heir expected issues. Herein, micrometer-sized few-to-multilayered sheetso fS ba nd Sb 2 Te 3 have been obtained by electrochemical exfoliation. The layered rhombo-hedralS bw as exfoliated in Na 2 SO 4 and Li 2 SO 4 electrolytes by anodic-cationic intercalation, and Sb 2 Te 3 was exfoliated in Na 2 SO 4 .T hese findings are important contributions for the solution-based room-temperature electrochemical exfoliation, whichi ss table under glove-box-free conditions, to further improve the productiono fh igh-quality exfoliated sheets. exfoliated switchingv oltage in 4and 10 min. In the insert the height profilesa long the x axis of some selected sheets.

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Section: Introductionmentioning

confidence: 99%

Towards Antimonene and 2D Antimony Telluride through Electrochemical Exfoliation

Marzo

Gusmão

Sofer

et al. 2020

Chemistry A European J

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“…Electronic and lattice dynamics in chalcogenide-based materials are important factors in the performance of opto-electrical data-storage media and thermoelectric devices. Among these materials, Sb 2 Te 3 is a prototype as it is, together with GeTe and BiTe, one of the constituents of chalcogenide superlattices (CSLs) 1 , 2 . Combining Sb 2 Te 3 with one of the above-mentioned crystals together in one lattice, creates a superlattice with intriguing properties different or greater than those of its individual components.…”

Section: Introductionmentioning

confidence: 99%

“…Combining Sb 2 Te 3 with one of the above-mentioned crystals together in one lattice, creates a superlattice with intriguing properties different or greater than those of its individual components. In a recent study it has been demonstrated that a strong link exists among structural and thermoelectric properties in epitaxial Sb 2+ x Te 3 , the latter having implications also in phase change SLs upon strain engineering in designed Sb 2+ x Te 3 /GeTe multilayers 1 . Improved thermoelectric properties by nanostructuring Sb 2 Te 3 /BiTe multilayer have already been demonstrated 3 .…”

Section: Introductionmentioning

confidence: 99%

“…Sb 2 Te 3 is a narrow-band-gap semiconductor (E g = 0.26 eV around room temperature) with R -3 m space group and is composed of repeated planes of five-atomic layer lamellas separated by a van der Waals gap 11 . It exhibits a rather large concentration of p-type carriers around 10 20 cm −3 1 due to the presence of native antisite defects–Sb atoms occupying Te lattice sites–and is diamagnetic.…”

Section: Introductionmentioning

confidence: 99%

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Phonon anharmonicities and ultrafast dynamics in epitaxial Sb2Te3

Bragaglia

Ramsteiner

Schick

et al. 2020

Sci Rep

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in this study we report on the investigation of epitaxially grown Sb 2 te 3 by employing fouriertransform transmission Spectroscopy (ftS) with laser-induced coherent Synchrotron Radiation (cSR) in the Terahertz (THz) spectral range. Static spectra in the range between 20 and 120 cm −1 highlight a peculiar softening of an in-plane IR-active phonon mode upon temperature decrease, as opposed to all Raman active modes which instead show a hardening upon temperature decrease in the same energy range. the phonon mode softening is found to be accompanied by an increase of free carrier concentration. A strong coupling of the two systems (free carriers and phonons) is observed and further evidenced by exciting the same phonon mode at 62 cm −1 within an ultrafast pump-probe scheme employing a femtosecond laser as pump and a CSR single cycle THz pulse as probe. Separation of the free carrier contribution and the phonon resonance in the investigated THz range reveals that, both damping of the phonon mode and relaxation of hot carriers in the time domain happen on the same time scale of 5 ps. This relaxation is about a factor of 10 slower than expected from the Lorentz time-bandwidth limit. The results are discussed in the framework of phonon scattering at thermal and laser induced transient free carriers. Electronic and lattice dynamics in chalcogenide-based materials are important factors in the performance of opto-electrical data-storage media and thermoelectric devices. Among these materials, Sb 2 Te 3 is a prototype as it is, together with GeTe and BiTe, one of the constituents of chalcogenide superlattices (CSLs) 1,2. Combining Sb 2 Te 3 with one of the above-mentioned crystals together in one lattice, creates a superlattice with intriguing properties different or greater than those of its individual components. In a recent study it has been demonstrated that a strong link exists among structural and thermoelectric properties in epitaxial Sb 2+x Te 3 , the latter having implications also in phase change SLs upon strain engineering in designed Sb 2+x Te 3 /GeTe multilayers 1. Improved thermoelectric properties by nanostructuring Sb 2 Te 3 /BiTe multilayer have already been demonstrated 3. Some more interesting properties include ultra-low power (non-melting) phase-change switching if compared to the established devices based on single active phase change material (PCM) and controlled topological states upon stack engineering 4-6. Those properties can be exploited for applications such as in photonic and electronic memories and processors, in Terahertz (THz) detection and to regenerate electricity from waste heat. However, the electro-optic properties of these chalcogenide topological insulators have barely been explored 7,8. The THz regime results ideal for the understanding of fundamental properties in such class of materials, as also shown by our previous works on GeSbTe alloys 9,10. Such measurement capability combined to a CSLs engineering could show future avenues for device improvements. To this purpose, in this wo...

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“…Between each annealing step, the samples were investigated by means of X‐ray diffraction (XRD) and Raman spectroscopy. In the recent years Raman spectroscopy was extensively exploited by our group to investigate GST, Sb 2 Te 3 /GeTe and Sb 2 Te 3 /GST SLs, and most recently Sb 2+x Te 3 alloys . Different annealing conditions are tested, allowing to identify T x and to optimize a recipe to reduce the segregation.…”

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confidence: 99%

Crystallization Study of Ge‐Rich (GeTe)_m(Sb₂Te₃)_n Using Two‐Step Annealing Process

Biagio

Cecchi

Arciprete

et al. 2019

Physica Rapid Research Ltrs

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A combination of X‐ray diffraction and Raman scattering is employed to investigate (GeTe)m(Sb2Te3)n alloys crystallized by thermal annealing from the amorphous (a‐) phase. The films are deposited by molecular beam epitaxy on Si(111) substrates. First, a series of a‐GeSbTe (GST) films of different composition is deposited and studied by Raman spectroscopy to identify the Ge‐rich features of the alloys. Second, the crystallization properties of Ge10Sb2Te13 are studied upon different annealing conditions. The aim of this work is to develop a procedure to avoid segregation of Ge and GeTe at the GST crystallization onset (Tx). This is here achieved by means of an incubation step at temperature lower than Tx. The crystallization onset Tx increased to 270 °C, which is about 160 °C higher compared to a reference GeTe sample, while the alloy always crystallizes in the stable Ge1Sb2Te4 composition. The increase of Tx is observed for all annealing conditions, regardless the amount of crystalline Ge segregated. For the optimized annealing treatment, the presence of Ge nanocrystals along with crystalline GeSbTe is unveiled by Raman measurements, paving the way for the control of the microstructure and electrical/thermal properties of Ge‐rich alloys.

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Interplay between Structural and Thermoelectric Properties in Epitaxial Sb₂₊_xTe₃ Alloys

Cited by 28 publications

References 53 publications

Towards Antimonene and 2D Antimony Telluride through Electrochemical Exfoliation

Towards Antimonene and 2D Antimony Telluride through Electrochemical Exfoliation

Phonon anharmonicities and ultrafast dynamics in epitaxial Sb2Te3

Crystallization Study of Ge‐Rich (GeTe)_m(Sb₂Te₃)_n Using Two‐Step Annealing Process

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Interplay between Structural and Thermoelectric Properties in Epitaxial Sb2+xTe3 Alloys

Cited by 28 publications

References 53 publications

Towards Antimonene and 2D Antimony Telluride through Electrochemical Exfoliation

Towards Antimonene and 2D Antimony Telluride through Electrochemical Exfoliation

Phonon anharmonicities and ultrafast dynamics in epitaxial Sb2Te3

Crystallization Study of Ge‐Rich (GeTe)m(Sb2Te3)n Using Two‐Step Annealing Process

Contact Info

Product

Resources

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Interplay between Structural and Thermoelectric Properties in Epitaxial Sb₂₊_xTe₃ Alloys

Crystallization Study of Ge‐Rich (GeTe)_m(Sb₂Te₃)_n Using Two‐Step Annealing Process