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Sigma-Aldrich

Ruthenium(III)-chlorid

anhydrous, powder, 99.99% trace metals basis

Synonym(e):

Ruthenium chloride, Ruthenium trichloride, Trichlororuthenium

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About This Item

Lineare Formel:
RuCl3
CAS-Nummer:
10049-08-8
Molekulargewicht:
207.43
MDL-Nummer:
MFCD00011208
UNSPSC-Code:
12352302
NACRES:
NA.21

Qualitätsniveau

100

Assay

40-50% Ru basis (gravimetric)
99.99% trace metals basis

Form

powder

specific gravity measuring range

6.97 g/mL

Verunreinigungen

≤150 ppm (trace metals analysis)

Farbe

dark gray to black

pH-Wert

1-2

Löslichkeit

water: soluble

Dichte

3.11 g/mL at 25 °C (lit.)

SMILES String

Cl[Ru](Cl)Cl

InChI

1S/3ClH.Ru/h3*1H;/q;;;+3/p-3

InChIKey

YBCAZPLXEGKKFM-UHFFFAOYSA-K

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Allgemeine Beschreibung

Ruthenium chloride is a dark brown or black solid often used as a powder. It is slightly soluble in organic solvents. Typically, ruthenium metal powder and chlorine are heated to create anhydrous ruthenium(III) chloride.

Anwendung

Ruthenium chloride is most used as a precursor for the synthesis of ruthenium complexes. One common application of ruthenium trichloride is in the synthesis of ruthenium nanoparticles, which are used as catalysts or composited with other materials and used as co-catalysts for both oxygen and hydrogen evolution reactions Researchers have used our ruthenium chloride to produce high-quality, catalytically active ruthenium nanoparticles and ruthenium oxide nanoparticles. In addition, common application of ruthenium chloride anhydrous is as a precursor for single-atom catalysts. For example, scientists have used ruthenium chloride for the synthesis of ruthenium single-atom-doped ZrO2 particles to catalyze nitrogen fixation and for the synthesis of ruthenium single-atom-doped MXenes to catalyze hydrogen evolution. A third common application of ruthenium chloride hydrate is in the synthesis of metal alloys, like PtRuIr, or PtRuFe, which are investigated for electrocatalysis, usually the oxidation of simple organics like methanol or formic acid.

Signalwort

Danger

Gefahreneinstufungen

Acute Tox. 4 Oral - Aquatic Chronic 2 - Eye Dam. 1 - Skin Corr. 1B

Lagerklassenschlüssel

8A - Combustible corrosive hazardous materials

WGK

WGK 3

Flammpunkt (°F)

Not applicable

Flammpunkt (°C)

Not applicable

Analysenzertifikate (COA)

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Die Dokumentenbibliothek aufrufen

Nitrogen Fixation by Ru Single-Atom Electrocatalytic Reduction
Tao H, et al.
Chem, 5, 204-214 (2019)
Fabing Su et al.
Journal of the American Chemical Society, 129(46), 14213-14223 (2007-11-02)
We report here a thermal reduction method for preparing Ru catalysts supported on a carbon substrate. Mesoporous SBA-15 silica, surface-carbon-coated SBA-15, templated mesoporous carbon, activated carbon, and carbon black with different pore structures and compositions were employed as catalyst supports
Tailoring the composition of ultrathin, ternary alloy PtRuFe nanowires for the methanol oxidation reaction and formic acid oxidation reaction
Scofield M E, et al.
Energy & Environmental Science, 8, 350-363 (2015)
Vinoth Ramalingam et al.
Advanced materials (Deerfield Beach, Fla.), 31(48), e1903841-e1903841 (2019-10-18)
A titanium carbide (Ti3 C2 Tx ) MXene is employed as an efficient solid support to host a nitrogen (N) and sulfur (S) coordinated ruthenium single atom (RuSA ) catalyst, which displays superior activity toward the hydrogen evolution reaction (HER).
Youngmin Lee et al.
The journal of physical chemistry letters, 3(3), 399-404 (2012-02-02)
The activities of the oxygen evolution reaction (OER) on iridium-oxide- and ruthenium-oxide-based catalysts are among the highest known to date. However, the OER activities of thermodynamically stable rutile iridium oxide (r-IrO2) and rutile iridium oxide (r-RuO2), normalized to catalyst mass
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