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Description
Product Specification
Hydrothermal Synthesis Autoclave Reactor with PPL Lined Vessel – 500 mL
The 500 mL Hydrothermal Synthesis Autoclave Reactor is engineered for high-pressure, high-temperature chemical reactions in laboratory environments. This reactor features a durable 304 stainless steel outer body and a chemically inert PPL (Perfluoroalkoxy polymer) inner chamber, providing excellent resistance to corrosive acids, strong bases, and aggressive solvents under elevated conditions.
It supports reaction temperatures up to 280°C (recommended continuous use at 250°C) and a maximum pressure of 3 MPa, making it ideal for advanced synthesis processes like nanoparticle growth, polymerization, catalyst production, and material digestion.
Its smooth-threaded design ensures simple and secure sealing, while the robust internal structure guarantees reliable performance in demanding thermal and pressure cycles.
Product Specifications
| Component | Specification |
|---|---|
| Chamber Volume | 500 mL |
| Outer Body Material | 304 Stainless Steel |
| Inner Chamber Material | PPL (Perfluoroalkoxy) |
| Total Height | 220 mm |
| Outer Body Height | 161 mm |
| Outer Body Outside Dia | 118 mm |
| Outer Body Inside Dia | 91 mm |
| Outer Body Thickness | 13.5 mm |
| PPL Chamber Height | 136 mm |
| PPL Chamber Outside Dia | 91 mm |
| PPL Chamber Thickness | 8 mm |
| Upper Cap Thickness | 50 mm |
| Upper Disc Thickness | 10 mm |
| Lower Disc Thickness | 10 mm |
| SS Rod Size | 8 × 200 mm |
| Maximum Operating Temp | 250°C (Peak: 280°C) |
| Maximum Working Pressure | 3 MPa |
| Heating/Cooling Rate | Recommended 5°C/min |
Key Features
Large volume design for mid-scale synthesis
Excellent acid and alkali resistance
High thermal and pressure durability
Corrosion-resistant stainless steel body
Smooth and secure sealing mechanism
Long-term operational stability under harsh conditions
Application Areas
Nanoparticle and crystal synthesis
Hydrothermal and solvothermal chemical reactions
Inorganic and polymer-based material development
Catalyst research and testing
Hydrothermal decomposition and precipitation
Sample digestion for elemental analysis
Dissolution of refractory materials and heavy metals
Advanced material crystallization in research labs
This reactor is optimized for advanced applications in materials science, nanotechnology, and chemical engineering, where precise control of pressure and temperature is essential for reproducible results and high-purity outputs.
Important Note
This product must be used within its design limits and under qualified laboratory conditions. NanographeneX Nanotechnology is not liable for damage resulting from improper or unintended usage, except where otherwise required by applicable law.
Additional information
| Piece | 1 piece, 5 pieces |
|---|