CUSTOM ITEM: Caps, Snap Top, with 0.04" thick, White Silicone Rubber / Natural PTFE Pre-Slit Septa, fitted in smooth, polyethylene, Natural Transparent Caps. For use with 11mm, 12x32mm Snap Top autosampler vials. BASIK Brand. BULK PRICING.
Additional Info:
Snap caps provide a fast, press‑fit sealing solution that simplifies vial preparation while maintaining consistent autosampler performance. The silicone/PTFE septa combination offers dependable sealing and chemical resistance for routine analytical workflows.
The 9502C‑E‑35C BASIK Snap Caps feature 0.04" thick natural PTFE pre‑slit septa bonded to silicone rubber, enabling easier needle penetration and improved injection consistency. Pre‑slit septa are commonly recommended for Waters® Alliance and Acquity systems, where reduced penetration resistance is important for reliable performance.
Natural PTFE contains no dyes or pigments, minimizing the risk of extractables and background interference in sensitive analyses. As part of the BASIK line, these caps provide a cost‑effective solution for laboratories requiring consistent performance at an economical price point. The natural transparent cap supports easy visibility and sample identification.
Key Features & Benefits
Pre‑slit septa ✅ Easier needle penetration
Natural PTFE ✅ No pigments, reduces extractables
Silicone/PTFE construction ✅ Reliable sealing and resealing capability
0.04" thick septa ✅ Durable for repeated injections
Economical BASIK line ✅ Cost-effective for routine use
Natural transparent cap ✅ Enables visibility and identification
Typical Applications
HPLC and UHPLC analysis
LC‑MS workflows
Waters® Alliance and Acquity systems
Routine analytical laboratories
High‑volume sample preparation
Important Notes
For 11 mm, 12 × 32 mm snap top autosampler vials only
Suitable for multiple injections
Pre‑slit septa reduce penetration resistance
Natural PTFE minimizes risk of extractables from dyes
This and other custom items are Custom Ordered and require quotation
Additional Resources
Custom Item Pricing Information