Peptide Synthesis Flask
The Peptide Synthesis Flask is a glass vessel equipped with a porous fritted glass resin support. It features a PTFE stopcock with a 2mm to 10mm bore, designed for easy solvent collection. The flask can be connected with or without a vacuum for added convenience in peptide synthesis processes.
Request a Quote
Data Sheet - Glass Peptide Synthesis Flask
| Part No | Capacity | Model | Glass Membrane | Porosity | Stop Cock | Type |
|---|---|---|---|---|---|
| 30054 | 250 ml | Flask | G1 to G4 | PTFE | Plain |
| 30055 | 500 ml | Flask | G1 to G4 | PTFE | Plain |
| 30056 | 1000 ml | Flask | G1 to G4 | PTFE | Plain |
| 30057 | 2000 ml | Flask | G1 to G4 | PTFE | Plain |
| 30058 | 5000 ml | Flask | G1 to G4 | PTFE | Plain |
| 30059 | 100 ml | Bottle | G1 to G4 | PTFE | Jacketed |
| 30060 | 500 ml | Bottle | G1 to G4 | PTFE | Jacketed |
| 30061 | 1000 ml | Bottle | G1 to G4 | PTFE | Jacketed |
Overview
The Peptide Synthesis Flask is designed for optimal resin support, solvent collection, and controlled reactions in peptide synthesis processes.
Key Features & Benefits:
✔ Porosity Fritted Glass Resin Support: Ensures efficient filtration and controlled peptide synthesis.
✔ Durable Glass Construction: Provides chemical resistance and durability for laboratory use.
✔ Versatile Screw Thread Design: Equipped with a GL 45 to GL 100 thread for secure closure and compatibility with various caps.
✔ PTFE-Lined Screw Cap: Ensures airtight sealing to prevent contamination and evaporation.
✔ PTFE Stopcock with Variable Bore (2mm to 10mm): Allows precise control of solvent flow.
✔ Vacuum-Compatible Design: Optional vacuum connection for enhanced solvent collection efficiency.
✔ Convenient Solvent Collection: Facilitates easy and controlled drainage for improved workflow.
Applications:
Ideal for peptide synthesis, organic synthesis, and chemical reaction processes.
Widely used in pharmaceutical research, academic laboratories, and biochemistry studies.
The Peptide Synthesis Flask combines precision engineering with practical design, ensuring reliable performance in peptide synthesis and chemical research.
