Description
Product Specification
Hydrothermal Synthesis Autoclave Reactor with PPL Lined Vessel – 50 mL
This compact 50 mL hydrothermal autoclave reactor is engineered for safe and efficient high-pressure, high-temperature reactions under laboratory conditions. Featuring a PPL (perfluoroalkoxy polymer) inner chamber and a durable 304 stainless steel outer shell, the reactor ensures exceptional corrosion resistance, acid/base compatibility, and thermal stability.
Thanks to its smooth-threaded cap, it’s easy to open and securely seal, providing airtight operation even under harsh hydrothermal environments. This reactor allows synthesis at temperatures up to 280°C (safe operational max: 250°C) and pressures up to 3 MPa, with a recommended heating/cooling rate of 5°C/min.
Product Specifications
| Component | Specification |
|---|---|
| Total Height | 140 mm |
| Outer Body Height | 93 mm |
| Outer Body Outside Dia | 53 mm |
| Outer Body Inside Dia | 40 mm |
| Outer Body Thickness | 6.5 mm |
| Outer Material | 304 Stainless Steel |
| Inner Chamber Material | PPL (Perfluoroalkoxy) |
| PPL Chamber Height | 78 mm |
| PPL Chamber Outside Dia | 40 mm |
| PPL Chamber Thickness | 5 mm |
| Upper Cap Thickness | 40 mm |
| Upper Disc Thickness | 10 mm |
| Lower Disc Thickness | 10 mm |
| SS Rod Size | 8 × 200 mm |
| Volume | 50 mL |
| Max Operating Temp | 250°C (Tolerance: 280°C) |
| Max Pressure | 3 MPa |
| Recommended Heating/Cooling Rate | 5°C/min |
Key Features
Compact and easy to use with smooth locking threads
Excellent resistance to corrosive acidic and alkaline environments
Tight sealing and pressure-safe design
Durable 304 stainless steel exterior
Reliable thermal and pressure performance for lab-scale synthesis
Application Areas
Hydrothermal and solvothermal reactions
Nanoparticle and quantum dot synthesis
Inorganic/organic material crystallization
Polymerization under pressure
Catalyst preparation and testing
Hydrothermal decomposition and oxidation
Dissolution of heavy metals, salts, and refractory materials
Research involving acid/base reaction environments
Sample digestion in analytical chemistry
Whether for material science research, advanced chemical processing, or nanoparticle development, this reactor offers a compact and efficient tool for small-batch synthesis under controlled conditions.
Important Note
This product should be evaluated for its suitability in your specific application. NanographeneX Nanotechnology assumes no liability for damages arising from misuse or misinterpretation of this data, except as required by law.