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Features
|
CAS No.: |
14405-45-9 |
|
Linear Formula: |
In(C5H7O2)3 |
|
Purity: |
99.99% |
|
Appearance: |
White to light yellow powder |
🔹 Product Description
Indium Acetylacetonate (In(acac)₃) is a high-purity organometallic compound widely used as a precursor for thin-film deposition, catalysts, and advanced material synthesis. Its unique thermal stability, solubility in organic solvents, and reactivity make it a preferred choice in nanotechnology, electronics, and optical applications.
This compound is known for its excellent volatility and controlled decomposition, making it ideal for chemical vapor deposition (CVD), atomic layer deposition (ALD), and solution-based synthesis. The high purity (99.99%) ensures minimal impurities, enhancing its effectiveness in high-precision industrial and scientific applications.
Indium Acetylacetonate is used as a metal-organic source of indium for producing indium oxide, indium sulfide, and other indium-based nanomaterials. Its chelated structure enhances stability, ensuring reliable performance in various chemical processes.
🔹 Features & Properties
✔ High Purity (99.99%) – Ensures minimal contamination for high-performance applications
✔ Excellent Solubility in Organic Solvents – Suitable for solution-based processing and coatings
✔ Stable Thermal Decomposition – Ideal for CVD, ALD, and MOCVD applications
✔ Good Volatility & Reactivity – Enhances deposition precision in thin-film processes
✔ Strong Metal-Ligand Bonding – Provides enhanced stability in organometallic reactions
🔹 Applications & Related Industries
Indium Acetylacetonate is widely used in electronics, nanotechnology, optical coatings, and catalysis.
📡 Thin-Film Deposition (CVD, ALD, MOCVD) – Key precursor for indium-based thin films
🔬 Nanomaterial Synthesis – Produces indium oxide (In₂O₃), indium sulfide (In₂S₃), and indium-doped materials
⚡ Semiconductor Industry – Used in microelectronics, transparent conductors, and LED production
🧪 Catalysis & Chemical Research – Acts as a metal-organic catalyst for specialty chemical reactions
🎥 Optical & Electronic Coatings – Utilized in high-performance optical films and conductive coatings
🔹 Synonyms & Alternative Names
Indium(III) Acetylacetonate
Tris(2,4-pentanedionato)indium
Indium 2,4-Pentanedionate
🔹 Health & Safety Information
⚠ Handling Precautions: Use protective gloves and mask in a well-ventilated area
⚠ Storage Conditions: Keep in an airtight container away from moisture, heat, and direct sunlight
⚠ Reactivity: Avoid contact with strong acids, oxidizers, and moisture
🔹 Production Method & Equipment
Indium Acetylacetonate is synthesized through ligand exchange reactions using high-purity indium precursors and acetylacetone. The process ensures controlled reaction conditions for ultra-high purity and stability.
🔹 Manufacturing Process:
1️⃣ Selection of High-Purity Indium Precursors
2️⃣ Controlled Reaction with Acetylacetone Ligands
3️⃣ Purification through Crystallization & Drying
4️⃣ Quality Control Testing for Purity & Stability
🔹 Size & Customization
✔ Available in fine powder or crystalline form
✔ Custom packaging options for research & industrial-scale applications
🔹 Certifications & Quality Assurance
✅ ISO-Certified Manufacturing Process
✅ Purity Verified by ICP-MS, XRD, and TGA Analysis
✅ Batch-to-Batch Consistency & Traceability
🔹 Lead Time & Minimum Order Quantity (MOQ)
📅 Lead Time: 2-4 weeks depending on order size
📦 MOQ: Available for custom orders & bulk quantities
🔹 FAQs (Frequently Asked Questions)
Q1: What is Indium Acetylacetonate used for?
✅ It is widely used in thin-film deposition, nanomaterials, and catalysis.
Q2: What is the difference between ALD and CVD applications?
✅ Atomic Layer Deposition (ALD) enables precise, layer-by-layer growth, while Chemical Vapor Deposition (CVD) allows for uniform coatings over larger surfaces.
Q3: How should Indium Acetylacetonate be stored?
✅ Store in a sealed, dry container away from light and air to prevent degradation.
Q4: Can this compound be used for semiconductor applications?
✅ Yes, it is used as a precursor for indium oxide and transparent conductive coatings.
🔹 How to Choose the Right Indium Acetylacetonate?
✔ For Thin-Film Deposition: Opt for 99.99% ultra-high purity
✔ For Nanomaterial Synthesis: Choose the crystalline form for easy processing
✔ For Catalysis & Chemical Reactions: Select the optimized particle size
🔹 Product Standards
✔ Conforms to ASTM, JIS, GB, EN, BS standards and other applicable standards
🔹 Product Specifications
| Parameter | Specification |
|---|---|
| Chemical Formula | In(C₅H₇O₂)₃ |
| Purity | 99.99% |
| Appearance | White to light yellow powder |
| Solubility | Soluble in organic solvents |
| Thermal Stability | High |
🔹 Production & Quality Control
Our Indium Acetylacetonate undergoes rigorous quality control to ensure high purity, stability, and consistent performance.
✅ ICP-MS Purity Testing
✅ TGA & XRD Analysis for Structural Integrity
✅ Controlled Crystallization Process
🔹 Shipping & Delivery Information
📦 Packaging: Moisture-proof, air-sealed containers
🚛 Delivery: Global shipping available
🌍 Worldwide Distribution
🔹 Environmental Impact & Sustainability
♻ Eco-Friendly Manufacturing – Minimizing chemical waste and emissions
♻ Sustainable Material Sourcing – Ensuring responsible use of Indium resources
🔹 Maintenance & Storage Instructions
✔ Store in sealed, moisture-free containers
✔ Handle in a controlled environment
✔ Avoid exposure to strong oxidizers and reactive chemicals
🔹 Differentiation Between Products
Our Indium Acetylacetonate stands out due to its high purity (99.99%), controlled synthesis process, and optimized volatility for advanced thin-film and catalytic applications.
📩 Contact Us
For custom orders and bulk inquiries, request a quote today!
Chemical Identifiers
|
Linear Formula |
In(C5H7O2)3 |
|
MDL Number |
MFCD00013494 |
|
EC No. |
238-378-6 |
|
Pubchem CID |
16687813 |
|
IUPAC Name |
(z)-4-bis[(z)-1-methyl-3-oxobut-1-enoxy]indiganyloxypent-3-en-2-one |
|
SMILES |
[In+3].O=C(/C=C(\[O-])C)C.[O-]\C(=C/C(=O)C)C.[O-]\C(=C/C(=O)C)C |
|
InchI Identifier |
InChI=1S/3C5H8O2.In/c3*1-4(6)3-5(2)7;/h3*3,6H,1-2H3;/q;;;+3/p-3/b3*4-3-; |
|
InchI Key |
SKWCWFYBFZIXHE-LNTINUHCSA-K |
Indium Acetylacetonate Properties (Theoretical)
|
Compound Formula |
C15H21InO6 |
|
Molecular Weight |
412.15 |
|
Appearance |
White to light yellow powder |
|
Melting Point |
187-189 °C |
|
Boiling Point |
N/A |
|
Density |
N/A |
|
Solubility in H2O |
N/A |
|
Exact Mass |
412.037691 |
|
Monoisotopic Mass |
412.037691 |
Indium Acetylacetonate Health & Safety Information
|
Signal Word |
Warning |
|
Hazard Statements |
H302-H312-H315-H319-H332-H335-H351 |
|
Hazard Codes |
Xn |
|
Risk Codes |
20/21/22-36/37/38-40 |
|
Safety Statements |
26-36 |
|
RTECS Number |
NL2025000 |
|
Transport Information |
N/A |
|
WGK Germany |
3 |
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