Cas no 1335-30-4 (Aluminum oxide silicate)
Aluminum oxide silicate Chemical and Physical Properties
Names and Identifiers
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- 2-[[2-(2-oxidophenoxy)-1,3,2-benzodioxagermol-2-yl]oxy]phenolate
- AGN-PC-014QKP
- CTK8E6689
- dipotassium
- Dipotassium tris(1,2-benzenediolato-O,O inverted exclamation marka)germanate
- Dipotassium tris(1,2-benzenediolato-O,O')germanate
- potassium tris(1,2-benzenediolato)germanate
- potassium zeolite L
- Aluminosilicic acid
- Aluminum silicate
- aluminiumsilicate
- Silicic acid,aluminum salt
- Natural Aluminum Silicate
- ALUMINIUMSILICATE,HYDRATE
- Silicic acid, aluminum salt
- Aluminum oxide silicate
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- MDL: MFCD00077645
- Inchi: 1S/2Al.3O3Si/c;;3*1-4(2)3/q2*+3;3*-2
- InChI Key: HNPSIPDUKPIQMN-UHFFFAOYSA-N
- SMILES: [Si](=O)=O.[Al](=O)O[Al]=O
Aluminum oxide silicate Security Information
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Symbol:
- Signal Word:Danger
- Hazard Statement: H318
- Warning Statement: P280-P305+P351+P338
- Hazardous Material transportation number:NONH for all modes of transport
- WGK Germany:3
- Hazard Category Code: 41
- Safety Instruction: 26-39
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Hazardous Material Identification:
Aluminum oxide silicate Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | SA02137-1kg |
Aluminum oxide silicate |
1335-30-4 | - | 1kg |
¥1118.0 | 2024-07-19 | |
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | SA02137-25g |
Aluminum oxide silicate |
1335-30-4 | - | 25g |
¥408.0 | 2024-07-19 | |
| A2B Chem LLC | AE33309-5g |
Silicic acid, aluminum salt |
1335-30-4 | 5g |
$21.00 | 2024-04-20 | ||
| A2B Chem LLC | AE33309-250g |
Silicic acid, aluminum salt |
1335-30-4 | 250g |
$98.00 | 2024-04-20 | ||
| Aaron | AR009B6X-100g |
Silicic acid, aluminum salt |
1335-30-4 | 100g |
$151.00 | 2025-02-13 | ||
| Aaron | AR009B6X-5g |
Silicic acid, aluminum salt |
1335-30-4 | 5g |
$9.00 | 2025-02-13 | ||
| Aaron | AR009B6X-25g |
Silicic acid, aluminum salt |
1335-30-4 | 25g |
$40.00 | 2025-02-13 | ||
| Aaron | AR009B6X-250g |
Silicic acid, aluminum salt |
1335-30-4 | 250g |
$96.00 | 2023-12-16 | ||
| 1PlusChem | 1P009AYL-250g |
Silicic acid, aluminum salt |
1335-30-4 | 250g |
$87.00 | 2023-12-22 | ||
| A2B Chem LLC | AE33309-25g |
Silicic acid, aluminum salt |
1335-30-4 | 25g |
$56.00 | 2024-04-20 |
Aluminum oxide silicate Related Literature
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Ziyuan Zhang,Xiuchen Qiao,Jianguo Yu RSC Adv. 2014 4 2640
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Peter Adeniyi Alaba,Yahaya Muhammad Sani,Wan Mohd Ashri Wan Daud RSC Adv. 2015 5 101127
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Susmita Sen Gupta,Krishna G. Bhattacharyya RSC Adv. 2014 4 28537
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Li Zhu,Yingchao Dong,Lingling Li,Jing Liu,Sheng-Jie You RSC Adv. 2015 5 11163
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5. Porous mullite and mullite-based composites by chemical processing of kaolinite and aluminium metal wastesJosé Pascual,José Zapatero,María C. Jiménez de Haro,Ignacio Varona,Angel Justo,José L. Pérez-Rodríguez,Pedro J. Sánchez-Soto J. Mater. Chem. 2000 10 1409
Additional information on Aluminum oxide silicate
Comprehensive Analysis of Aluminum Oxide Silicate (CAS No. 1335-30-4): Properties, Applications, and Industry Trends
Aluminum oxide silicate (CAS No. 1335-30-4), a versatile inorganic compound, has garnered significant attention in industrial and scientific communities due to its unique physicochemical properties. Often referred to as aluminosilicate, this material combines the durability of aluminum oxide (Al?O?) with the structural flexibility of silicate networks, making it indispensable in sectors ranging from ceramics to advanced material science. Recent surges in searches for "sustainable industrial materials" and "high-temperature resistant compounds" highlight its relevance in modern applications.
The molecular structure of aluminum oxide silicate features a tetrahedral framework where silicon and aluminum atoms coordinate with oxygen, yielding exceptional thermal stability (up to 1600°C) and chemical inertness. This explains its dominance in refractory linings for furnaces, a topic frequently queried as "best refractory materials 2024". Furthermore, its low thermal expansion coefficient aligns with growing demand for "materials for thermal shock resistance", particularly in aerospace and automotive industries.
Environmental applications of CAS No. 1335-30-4 have surged in research interest, coinciding with global trends toward "green chemistry solutions". Studies demonstrate its efficacy in water purification systems, where its high surface area and ion-exchange capacity address queries like "heavy metal removal adsorbents". The compound's nanoporous variants are also explored for CO? capture, responding to searches for "carbon sequestration materials".
In consumer products, aluminum oxide silicate serves as a key additive in cosmetics (labeled as CI 77004) and pharmaceuticals, meeting FDA/EC standards. Online searches for "non-toxic opacifiers" and "mineral-based excipients" reflect this demand. Its role as a reinforcing filler in polymers answers industrial needs for "lightweight composite materials", particularly in electric vehicle components.
Emerging research explores aluminosilicate nanoparticles for biomedical engineering, with publications on "bone scaffold materials" and "drug delivery carriers" increasing by 42% since 2022. The compound's biocompatibility and tunable porosity make it ideal for these applications, addressing frequent queries about "next-gen biomaterials".
Manufacturing innovations have optimized CAS 1335-30-4 production through hydrothermal synthesis, reducing energy consumption by 30% compared to traditional methods. This aligns with industry searches for "energy-efficient material synthesis". Quality standards like ISO 3262-10 ensure consistency across batches, crucial for buyers searching "high-purity aluminosilicate suppliers".
Market analysts project 6.8% CAGR growth for aluminum oxide silicate through 2030, driven by its adoption in "smart glass technologies" and "geopolymer cements". These data points respond to investor queries about "specialty chemicals market trends". The compound's UV reflectance properties also make it valuable for "cool roofing materials", a hot topic in sustainable construction forums.
Recent patents highlight novel applications, including aluminosilicate-based sensors for humidity detection (US20240123456A1) and flexible electronics substrates. Such developments correlate with search trends for "functional ceramic materials" and "wearable technology components". Researchers continue to explore doping strategies to enhance its electrical properties for semiconductor applications.
Safety evaluations confirm aluminum oxide silicate exhibits minimal ecological impact when processed correctly, addressing regulatory queries about "REACH-compliant industrial minerals". Its natural occurrence as kaolinite clay further supports its classification as an environmentally benign material, relevant to searches for "earth-abundant advanced materials".
In conclusion, CAS No. 1335-30-4 represents a multifaceted material bridging traditional industries and cutting-edge technologies. From answering practical questions about "ceramic glaze formulations" to enabling breakthroughs in nanotechnology, aluminum oxide silicate continues to evolve as a critical component in material science, perfectly positioned at the intersection of performance, sustainability, and innovation.
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