High-Purity Digold Trioxide from Aure Chemical – Your Trusted Source
Digold trioxide, Au₂O₃, CAS No. 1303-58-8, is a rare and highly valued gold(III) oxide widely recognized for its unique reactivity in heterogeneous catalysis and materials chemistry. Supplied by Aure Chemical as dark brown to black amorphous or finely crystalline powder with high gold content (approximately 93–94% Au), this thermally unstable compound decomposes to metallic gold and oxygen upon heating and serves as a clean source of Au(III) or Au(0) species. It is employed as a precursor for generating supported gold catalysts, preparing gold nanoparticles via reduction, and in studies of gold oxide thin films or surface-modified materials. Its high oxidation state and ability to activate oxygen make it useful in selective oxidation catalysis, CO oxidation, and as a dopant in advanced functional materials. Aure Chemical provides controlled particle size, high surface area options, and secure gold sourcing to ensure batch reproducibility and optimal performance in demanding catalytic and materials applications worldwide.
Basic Information of Digold Trioxide
Aure Chemical supplies Digold Trioxide as a premium Au(III) oxide with verified high gold content and exceptional purity for catalysis and materials applications.
| CAS No. | 1303-58-8 |
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| EC No. | 215-122-1 |
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| Chemical Formula | Au₂O₃ |
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| Molecular Weight | 441.93 g/mol |
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| Appearance | Dark brown to black amorphous or finely crystalline powder |
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| Odor | Odorless |
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| Melting point | Decomposes ~160 °C to Au + O₂ |
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| Boiling point | Not applicable (decomposes) |
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| Density | approx. 11.0–11.5 g/cm³ |
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| Solubility | Insoluble in water; soluble in hot concentrated acids (e.g., aqua regia, HCl + HNO₃) |
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| Nature (hazards) | May cause respiratory irritation, skin and eye irritation, harmful if inhaled as dust, toxic to aquatic life |
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| RIDADR | Not regulated (non-hazardous for transport under standard classifications; consult SDS for specific handling) |
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| Chemical Structure |  |
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Aure Chemical offers customizable options including purity grades, particle size distribution, surface area optimization, and supported forms (e.g., Au₂O₃ on TiO₂ or carbon) to match your catalysis, reduction, or material requirements.
Primary Applications of Digold Trioxide
Digold Trioxide serves as a unique Au(III) oxide source, offering high oxidation state and facile reduction to metallic gold in catalytic and materials processes.
Supported Gold Catalyst Preparation
Used as a precursor for depositing Au on various supports (carbon, alumina, TiO₂) via reduction or decomposition, yielding active catalysts for CO oxidation, selective alcohol oxidation, and hydrogenation.
Gold Nanoparticle Synthesis
Enables controlled reduction to generate Au nanoparticles or clusters with unique electronic properties for plasmonics, sensing, and biomedical applications.
Heterogeneous Oxidation Catalysis
Exhibits activity in low-temperature oxidation of CO, aldehydes, and hydrocarbons, useful in emission control and fine chemical production.
Thin-Film & Surface Modification
Serves as a source for gold oxide thin films or surface layers in microelectronics, sensors, and plasmonic devices via thermal or chemical decomposition.
Advanced Materials Research
Employed in studies of gold oxide stability, mixed-metal oxides, and functional coatings requiring high gold oxidation state.
Chemical & Materials Synthesis
Provides a clean Au(III) source in non-aqueous or solid-state reactions where chloride contamination is undesirable.
Why Choose Aure Chemical for Your Digold Trioxide Supply?
Partner with Aure Chemical for Digold Trioxide to benefit from superior stability, customization flexibility, and secure precious metal supply tailored to your catalytic and materials needs.
High Gold Content & Purity
Precise analytical control ensures consistent Au content, optimal crystallinity, and high active surface area for maximum performance.
Custom Material Specifications
Tailored purity, particle morphology, surface area, and supported variants to perfectly align with your oxidation, reduction, or energy application.
Consistent Batch-to-Batch Reproducibility
Rigorous testing (ICP, XRD, BET, activity assays) guarantees low variation and predictable performance during scale-up and production.
Secure Gold Supply Chain
Responsible sourcing, strategic inventory management, and transparent pricing mitigate volatility and ensure long-term availability.
Technical & Regulatory Support
Expert team provides guidance on reduction protocols, catalyst activation, performance optimization, and full documentation (COA, REACH, SDS) for seamless integration.
Hazards Classification
GHS Classification: Skin Irritation (Category 2); Eye Irritation (Category 2A); Specific Target Organ Toxicity, Single Exposure (respiratory) (Category 3); Aquatic Chronic (Category 3)
Hazard Statements: H315: Causes skin irritation; H319: Causes serious eye irritation; H335: May cause respiratory irritation; H413: May cause long lasting harmful effects to aquatic life
UN Number: Not regulated
Hazard Class: Not classified as hazardous for transport
Packing Group: Not applicable
GHS07: Exclamation mark (irritant, respiratory)
GHS09: Environment (aquatic hazard)
