Titanium(IV) Selenide (TiSe2) Powder and Crystal
CAS Number 12067-45-7
2D Materials, Low Dimensional Materials, Transition Metal Chalcogenides (TMCs), Transition Metal Dichalcogenides
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Low price, high purity 2D metal titanium(IV) selenide powder and crystals
For the development of next-generation electronics, optoelectronics, and nanotechnology
Titanium(IV) selenide (also known as titanium diselenideTiSe2), CAS number 12067-45-7, is a family member of Group IV transition metal dichalcogenides (TMDCs), and is of great interest as one of the typical charge density wave (CDW) materials. It is known that the CDW characteristics of TiSe2 can be changed; they are typically suppressed. In some cases, this leads to superconductivity or magnetic order by applying high pressure or intercalation.
TiSe2 has an octahedral crystal structure (1T, space group D3d) with van der Waals stacked layers. In its bulk form, 1T-TiSe2 undergoes a phase transition from a semimetal (1 × 1 × 1 normal phase) to a commensurate CDW (2 × 2 × 2 CDW) at around 200 K. Recent discoveries have demonstrated that superconductivity in TiSe2 can be induced either by field-effect doping of few-layer TiSe2, or copper doping to form CuxTiSe2. In both cases, the suppression of the CDW is considered essential to achieve superconductivity.
TiSe2 has an electronic structure near the Fermi energy level comparable to that of a semiconductor. Its valence and conduction bands overlap slightly through an indirect gap. Rather interestingly, TiSe2 has an exotic ground state, the 'excitonic insulator' phase.
High Purity
≥99.999% Crystal Purity
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Low Cost Titanium(IV) Selenide
Powder & Crystal
Different Forms of Titanium(IV) Selenide
We supply low price titanium(IV) selenide in several different forms for a range of applications.
Titanium(IV) Selenide Powder
Can be used for preparation of titanium(IV) selenide nanoplates and ultrathin films
Sold by weight
≥99.995% purity
From £350
Titanium(IV) Selenide Crystals by Size
Can be used to produce single or few-layer titanium(IV) selenide sheets via mechanical or liquid exfoliation
Small (≥10 mm2) or medium (≥25 mm2) crystals available*
≥99.999% purity
From £520
*Typical representative size, areas/dimensions may vary
Bulk single titanium(IV) selenide crystal is most commonly used as sources from which single or few-layer sheets can be obtained via either mechanical or liquid exfoliation.
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Titanium(IV) selenide powder can also be used to prepare TiSe2 nanosheets and nanoparticles by liquid-exfoliation (normally assisted by sonication).
Key Product Data
- High purity, low price titanium(IV) selenide
- Available as a powder or as individual crystal
- Can be used to produce single or few-layer sheets
- Free worldwide shipping on qualifying orders
Structure of Titanium(IV) Selenide
TiSe2 has an octahedral crystal structure (1T, space group D3d) with van der Waals stacked layers. Monolayer TiSe2 consists of stacked Se–Ti–Se atomic layers, in which Ti and Se atoms are strongly bound within the layer. Ti atom is located in the center of the octahedral, which is the inversion symmetry point.
Properties of 2D Titanium(IV) Selenide
After exfoliation of crystals or powder, titanium(IV) selenide typically has the following properties:
- Hexagonal (1T) structure (space group: P3m1 D3d)
- CDW characteristics of TiSe2 can be changed or suppressed
- Superconductivity in TiSe2 can be induced either by field-effect doping of few-layer TiSe2, or copper doping to form CuxTiSe2
Applications of Titanium(IV) Selenide
Titanium(IV) selenide single crystals can be used to prepare monolayer and few-layer TiSe2 by mechanical or liquid exfoliation. Titanium(IV) selenide powder is suitable for liquid chemical exfoliation to prepare TiSe2 nanosheets and nanoparticles down to few-layer films.
Titanium(IV) selenide has potential applications in superconductors, optoelectronics, advanced low‐power electronics, voltage-controlled oscillators, and ultra-fast electronics.
Titanium(IV) selenide has potential applications in optoelectronics, advanced low‐powerelectronics, superconductors, voltage-controlled oscillators, and ultra-fast electronics.
Mono- or few-layer TiSe2 has potential applications in controllable-switch electronic devices, and quantum information processing (based on CDW).
The electron doping due to the Li intercalation and the expansion of the interlayer spacing between TiSe2 layers due to the intercalation of diamines suppress the charge density wave transition and lead to the appearance of superconductivity. Also Mg-ion battery with a micro-sized TiSe2 cathode shows rechargeable performance at ambient temperature.
Literature and Reviews
- Enhancing charge-density-wave order in 1T-TiSe2 nanosheet by encapsulation with hexagonal boron nitride, L. Li et al., Appl. Phys. Lett. 109, 141902 (2016); doi: 10.1063/1.4963885.
- Unveiling the charge density wave inhomogeneity and pseudogap state in 1T-TiSe2, K. Zhang et al., Sci. Bull., 63, 426–432 (2018); doi: 10.1016/j.scib.2018.02.018.
- Unconventional Charge-Density-Wave Transition in Monolayer 1T‑TiSe2, K. Sugawara et al., ACS Nano, 10, 1341−1345 (2016); DOI: 10.1021/acsnano.5b06727.
- Raman Characterization of the Charge Density Wave Phase of 1T-TiSe2: From Bulk to Atomically Thin Layers, D. Duong et al., ACS Nano, 11, 1034−1040 (2017); DOI: 10.1021/acsnano.6b07737.
- Hydrogenation-driven phase transition in single-layer TiSe2, F. Iyikanat et al, Nanotechnology 28, 495709 (2017); doi: 10.1088/1361-6528/aa94ab.
- Controlled Synthesis of Two-Dimensional 1T‑TiSe2 with Charge Density Wave Transition by Chemical Vapor Transport, J. Wang et al., J. Am. Chem. Soc., 138, 16216−16219 (2016); DOI: 10.1021/jacs.6b10414.
- Layer- and substrate-dependent charge density wave criticality in 1T–TiSe2, S. Kolekar et al., 2D Mater. 5, 015006 (2018); DIO: 10.1088/2053-1583/aa8e6f.
- Charge density wave transition in single-layer titanium diselenide, P. Chen et al., Nat. Commun., 6:8943 (2015); DOI: 10.1038/ncomms9943.
- Charge Density Waves in Exfoliated Films of van der Waals Materials: Evolution of Raman Spectrum in TiSe2, P. Goli et al, Nano Lett., 12, 5941−5945 (2012); doi: 10.1021/nl303365x.
- Stable charge density wave phase in a 1T–TiSe2 monolayer, B. Singh et al., Phys. Rev., 95, 245136 (2017); DIO: 10.1103/PhysRevB.95.245136.
Technical Data
CAS Number | 12067-45-7 |
Chemical Formula | TiSe2 |
Molecular Weight | 205.79 g/mol |
Bandgap | N/A |
Preparation | Synthetic - Chemical Vapour Transport (CVT) |
Structure | Octahedral (1T) |
Electronic Properties | Semimetal, Charge Density Waves (CDW) |
Melting Point | N/A |
Colour | Dark brown |
Synonyms | Titanium Diselenide (TiSe2), Bis(selanylidene)titanium |
Classification / Family | Transition metal dichalcogenides (TMDCs), Charge Density Wave (CDW), Superconductivity, Nano-electronics, Nano-photonics, Photovoltaic, Materials science |
Product Details
Form | Purity |
Powder | ≥99.995% |
Crystal | ≥99.999% |
MSDS Documents
Pricing Table
Product Code | Form | Size/Weight* | Price |
M2151C1 | Powder | 1 g | £350 |
M2151A10 | Crystal | Small (≥10 mm2) | £520 ea. |
*typical representative size, areas/dimensions may vary
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