Inline Filter, for HPLC, female connection, replaceable 0.188 inch PEEK filter elements and All-PEEK body. Includes 10 disposable 2 um PEEK filters. ARE-Applied Research brand. 5/PK.
Additional Info:
The 49681-020-005 ARE‑Applied Research Inline Filter is an all‑PEEK inline filtration system supplied in a multi‑unit pack, engineered for HPLC and LC‑MS applications requiring consistent particulate removal and system protection.
Constructed entirely from PEEK for maximum chemical compatibility, this inline filter uses replaceable 2 µm PEEK filter elements to help minimize peak broadening, reduce background noise, and prevent column clogging. This supports longer column life and improved analytical performance.
Each unit is designed for easy installation and quick maintenance, making it suitable for routine lab use and high‑throughput workflows.
Key Features
All‑PEEK Construction
Metal‑free, chemically inert design
Suitable for aggressive solvents and biocompatible systems
Replaceable 2 µm Filter Elements
PEEK encased filters for efficient particulate removal
Reduces maintenance downtime and cost
✅ Replacement option available:
Improves Chromatographic Performance
Helps reduce:
Peak broadening
Background noise
Column clogging
Protects expensive analytical columns
Optimized for HPLC & LC‑MS Systems
Suitable for mobile phase filtration
Supports high‑precision analytical workflows
Easy Installation & Maintenance
Simple inline configuration
Quick, tool‑free filter replacement
Standard Filter Compatibility
Accepts 6.25 mm OD × 1/16 inch thick PEEK encased filters
Compatible with various porosities
Specifications
Type: Inline HPLC Filter with Replaceable Elements
Housing Material: All‑PEEK
Filter Material: PEEK encased PEEK elements
Pore Size: 2 µm
Filter Dimensions: 6.25 mm OD × 1/16 inch thick
Connection Type: Female
Compatibility: HPLC and LC‑MS systems
Brand: ARE‑Applied Research
Additional Pack Option
✅ Also available:
Typical Applications
HPLC and LC‑MS systems, mobile phase filtration, column protection, pharmaceutical and environmental analysis, and applications requiring reduced particulates and improved reproducibility