2022
DOI: 10.1002/advs.202203436
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Plastic/Ductile Bulk 2D van der Waals Single‐Crystalline SnSe2 for Flexible Thermoelectrics

Abstract: The recently discovered ductile/plastic inorganic semiconductors pave a new avenue toward flexible thermoelectrics. However, the power factors of current ductile/plastic inorganic semiconductors are usually low (below 5 μW cm −1 K −2 ) as compared with classic brittle inorganic thermoelectric materials, which greatly limit the electrical output power for flexible thermoelectrics. Here, large plasticity and high power factor in bulk two-dimensional van der Waals (2D vdW) single-crystalline SnSe 2 are reported. … Show more

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Cited by 37 publications
(34 citation statements)
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“…More importantly, a deformability factor was proposed to select other candidate plastic bulk materials, , where , , and are the cleavage energy, slipping energy, and the in-plane Young’s modulus along the slip direction, respectively, which is in good agreement with early literature [ 40 ]. Based on this rule, an important deformability factor is the existence of bulk 2D vdW single-crystalline SnSe 2 ( Figure 1 e), which endures a large bending strain as high as 15% in a three-point bending test without cracking and retains good integrity on the microscopic scale [ 41 ]. The calculated along (001)<120> is 0.022 eV per atom, lower than InSe along (001)[100] and Ag 2 S along (100)[001], while the along (001) is 0.143 eV per atom, higher than InSe and Ag 2 S. Therefore, is much higher than those of ductile InSe and Ag 2 S, as visualized in Figure 1 f.…”
Section: Intrinsically Ductile Thermoelectric Materialsmentioning
confidence: 99%
See 1 more Smart Citation
“…More importantly, a deformability factor was proposed to select other candidate plastic bulk materials, , where , , and are the cleavage energy, slipping energy, and the in-plane Young’s modulus along the slip direction, respectively, which is in good agreement with early literature [ 40 ]. Based on this rule, an important deformability factor is the existence of bulk 2D vdW single-crystalline SnSe 2 ( Figure 1 e), which endures a large bending strain as high as 15% in a three-point bending test without cracking and retains good integrity on the microscopic scale [ 41 ]. The calculated along (001)<120> is 0.022 eV per atom, lower than InSe along (001)[100] and Ag 2 S along (100)[001], while the along (001) is 0.143 eV per atom, higher than InSe and Ag 2 S. Therefore, is much higher than those of ductile InSe and Ag 2 S, as visualized in Figure 1 f.…”
Section: Intrinsically Ductile Thermoelectric Materialsmentioning
confidence: 99%
“…Copyright 2018 American Association for the Advancement of Science). ( e ) The crystal structure of SnSe 2 [ 41 ]. ( f ) The deformability factors (Σ) of ductile semiconductors, metals, and brittle materials (Reprinted from ref [ 41 ] under the terms of a Creative Commons CC BY License.…”
Section: Intrinsically Ductile Thermoelectric Materialsmentioning
confidence: 99%
“…The recently discovered ductile inorganic semiconductors based on silver sulfide realize the integration of high electrical mobility and mechanical flexibility in one single-phased inorganic material, [26] which opens a new utility in flexible inorganic TE materials. [27][28][29][30] For instance, a unique inorganic material Ag 2 Te 0.6 S 0.4 with both extraordinary plastic deformability and high room temperature TE performance is developed. [31] It can be reshaped into flexible slice without compromising the TE performance.…”
Section: Introductionmentioning
confidence: 99%
“…8 Recently, a few notable inorganic semiconductors, such as Zn 2 S, 9 Ag 2 S, 10 and InSe, 11 were reported to possess excellent deformability at room temperature. Afterward, a series of plastic deformable van der Waals layered materials such as CrCl 3 , 12 SnSe 2 , 13 and SnIP 14 were reported. These discoveries stimulated intensive interest in exploring more deformable inorganic layered semiconductors.…”
Section: ■ Introductionmentioning
confidence: 99%