Tin selenide (SnSe) is a narrow band gap semiconductor comprised of environmentally friendly and earth abundant elements.
SnSe has recently proven to be an extraordinarily promising thermoelectric material with intrinsically ultra-low lattice thermal conductivity and a record figure of merit up to 2.6 at a higher temperature (813K). This enables direct and reversible conversion between thermal and electrical energy, and provides a viable route for power generation from waste heat.
With an indirect bandgap of 1.30 eV and direct bandgap of 1.21 eV, SnSe has great potential to be utilised as an efficient material for solar energy conversion.
SnSe belongs to the class of layered semiconductors. It is made up of tightly bound layers formed by double planes each of which consists of zigzag chains of tin and selenium atoms. At room temperature, SnSe adopts orthorhombic crystal structure which can be compared to that of black phosphorus.
General Information
CAS number | 1315-06-6 |
Chemical formula | SnSe |
Molecular weight | 197.67 g/mol |
Bandgap | 0.91 -1.79 eV [1] |
Synonyms | Stannous selenide, Tin selenide |
Classification / Family | Transition metal dichalcogenides (TMDCs), 2D semiconductor materials, Nano-electronics, Nano-photonics, Materials science |
Product Details
Form | Single crystal |
Preparation | Synthetic - chemical vapour transport (CVT) |
Purity | ≥ 99.999% |
Structure | Orthorhombic |
Electronic properties | 2D semiconductor |
Melting point | 861 °C (lit.) |
Colour | Metallic |
Chemical Structure
Applications
Exfoliated few-layer tin selenide (SnSe) has been used in the field of photovoltaics and infrared optoelectronic devices, radiation detectors, holographic recording systems, electrical switching, and polarity-dependent memory switching devices. SnSe also has great potential for use in memory switching devices, efficient solar materials, and holographic recording systems.
Synthesis
Tin selenide (SnS) is manufactured using chemical vapour transport (CVT) crystallisation, with crystals having a high purity (in excess of 99.999%).
Usage
Tin selenide single crystals can be used to prepare monolayer and few-layer Sn, via mechanical or liquid exfoliation.
Viscoelastic transfer of 2D material using PDMS
MSDS Documentation
Tin (II) selenide crystal MSDS sheet
Pricing
Size | Product code | Size description* | Quantity (EA) | Price |
Small | M2116A10 | >10 mm2 | 1 | £397.00 |
Medium | M2116A25 | >25 mm2 | 1 | £637.00 |
*typical representative size, areas/dimensions may vary
Literature and Reviews
- Liquid Exfoliation Few-Layer SnSe Nanosheets with Tunable Band Gap, Y. Huang et al., J. Phys. Chem. C, 121 (32), 17530–17537 (2017); DOI: 10.1021/acs.jpcc.7b06096.
- Ultralow thermal conductivity and high thermoelectric figure of merit in SnSe crystals, L. Zhao et al., Nature, 508, 373-377 (2014); doi: 10.1038/nature13184.
- Quasiparticle band structures and thermoelectric transport properties of p-type SnSe, G. Shi et al., J. Appl. Phys., 117, 065103 (2015); doi: 10.1063/1.4907805.
- Anisotropic Spin Transport and Strong Visible-Light Absorbance in Few- Layer SnSe and GeSe, G. Shi et al., Nano Lett., 15, 6926−6931 (2015); DOI: 10.1021/acs.nanolett.5b02861.
- Nanostructured SnSe: Synthesis, doping, and thermoelectric properties, S. Liu et al., J. Appl. Phys., 123, 115109 (2018); doi: 10.1063/1.5018860.
To the best of our knowledge the technical information provided here is accurate. However, Ossila assume no liability for the accuracy of this information. The values provided here are typical at the time of manufacture and may vary over time and from batch to batch.
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水的化学式为H2O,它不含有碳元素,故不是有机物.
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