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Key Documents

241911

Sigma-Aldrich

Tungsten(VI) chloride

≥99.9% trace metals basis

Synonyme(s) :

Tungsten hexachloride

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About This Item

Formule linéaire :
WCl6
Numéro CAS:
Poids moléculaire :
396.56
Numéro CE :
Numéro MDL:
Code UNSPSC :
12352302
ID de substance PubChem :
Nomenclature NACRES :
NA.23

Pression de vapeur

43 mmHg ( 215 °C)

Niveau de qualité

Pureté

≥99.9% trace metals basis

Forme

powder

Pertinence de la réaction

reagent type: catalyst
core: tungsten

Impuretés

≤1000.0 ppm Trace Metal Analysis

Point d'ébullition

347 °C (lit.)

Pf

275 °C (lit.)

Densité

3.52 g/mL at 25 °C (lit.)

Chaîne SMILES 

Cl[W](Cl)(Cl)(Cl)(Cl)Cl

InChI

1S/6ClH.W/h6*1H;/q;;;;;;+6/p-6

Clé InChI

KPGXUAIFQMJJFB-UHFFFAOYSA-H

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Description générale

Tungsten(VI) chloride is a highly reactive crystalline solid commonly used in the field of catalysis, perovskite solar cells, and light-emitting devices. It is a diamagnetic solid. However, it can be highly corrosive and have strong oxidizing effects.

Application

Tungsten(VI) chloride can be used:
  • As a starting material to synthesize tungsten nanoparticles and Mo-doped urchin-like W18O49 Nanostructure using the hydrothermal method. The Mo-W18O49 electrocatalyst exhibited excellent electrocatalytic activity toward Hydrogen Evolution Reaction (HER). By doping Mo species into defect-rich W18O49 ultrathin nanowires, it has also been demonstrated to be an excellent candidate for photocatalytic N2 fixation to ammonia.
  • To synthesize crystalline mesoporous WO3 with 11 nm pore size utilizing a high-molecular-weight amphiphilic block copolymer as the structure-directing agent. The materials performed admirably in terms of H2S gas sensing.
  • To fabricate Tungsten disulfide and WS2/reduced graphene oxide (WS2/rGO) nanosheets by hydrothermal synthesis. The WS2/rGO nanosheets showed exceptional electrocatalytic activity for the hydrogen evolution reaction.
  • To produce the WS2-nanoflowers@rGO and nitrogen-doped carbon spheres@WS2 composite as an anode material for enhanced electrode performance in lithium-ion batteries.
  • As a dopant to fabricate TiO2 compact layers for perovskite solar cells with enhanced performance.
  • As a catalyst to prepare self-healing epoxy composites with microcapsules.
  • As a catalyst for transamidation of tertiary alkyl amides.

Pictogrammes

CorrosionExclamation mark

Mention d'avertissement

Danger

Mentions de danger

Classification des risques

Aquatic Chronic 3 - Eye Dam. 1 - Skin Corr. 1B - STOT SE 3

Organes cibles

Respiratory system

Code de la classe de stockage

8A - Combustible corrosive hazardous materials

Classe de danger pour l'eau (WGK)

WGK 3

Point d'éclair (°F)

Not applicable

Point d'éclair (°C)

Not applicable

Équipement de protection individuelle

Eyeshields, Faceshields, Gloves, type P3 (EN 143) respirator cartridges


Certificats d'analyse (COA)

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Les clients ont également consulté

Hierarchical Nanocomposite of Hollow N-Doped Carbon Spheres Decorated with Ultrathin WS2 Nanosheets for High-Performance Lithium-Ion Battery Anode
Xiaohui Zeng, et al.
ACS Applied Materials & Interfaces, 8, 18841-18848 (2016)
Liyan Zhou et al.
Scientific reports, 9(1), 1357-1357 (2019-02-06)
Tungsten Disulfide (WS2) is considered to be a promising Hydrogen Evolution Reaction (HER) catalyst to replace noble metals (such as Pt and Pd). However, progress in WS2 research has been impeded by the inertness of the in-plane atoms during HER.
Refining Defect States in W18O49 by Mo Doping: A Strategy for Tuning N2 Activation towards Solar-Driven Nitrogen Fixation
Ning Zhang, et al
Journal of the American Chemical Society, 140, 9434-9443 (2018)
Preparation and self-healing performance of epoxy composites with microcapsules and tungsten (VI) chloride catalyst
Li Haiyan, et al.
Journal of Reinforced Plastics and Composites, 31, 924-932 (2012)
Giuseppe Bengasi et al.
Chemistry (Weinheim an der Bergstrasse, Germany), 25(35), 8313-8320 (2019-04-03)
Oxidative chemical vapour deposition of (5,15-diphenylporphyrinato)nickel(II) (NiDPP) with iron(III) chloride as oxidant yielded a conjugated poly(metalloporphyrin) as a highly coloured thin film, which is potentially useful for optoelectronic applications. This study clarified the reactive sites of the porphyrin monomer NiDPP

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