Capillary, Bare Fused Silica, 25um ID by 10 meters. Simplus Brand. 1 EA.
Additional Info:
The 04026-C Simplus Capillary is an untreated fused silica capillary designed for capillary electrophoresis (CE), providing natural electro‑osmotic flow (EOF) and consistent, well‑understood separation behavior.
Manufactured with extreme precision and excellent concentricity the full 10‑meter length, this capillary ensures uniform performance and is ideal for custom cutting, extended usage, and high‑volume laboratory workflows. The capillary is coated with a durable polyimide outer layer and supplied on a non‑static spool for safe handling and storage.
Key Features
Bare Fused Silica Surface
Untreated inner wall provides standard EOF behavior
Suitable for routine separations and method development
Extended 10 Meter Length
Ideal for custom cutting into multiple capillaries
Supports flexibility and cost efficiency in high‑use labs
High Precision Manufacturing
Excellent concentricity לאורך entire length
Ensures consistent flow and reproducible results
Fused Silica with Polyimide Coating
Durable, flexible polyimide outer layer
Protects capillary during handling and operation
Standard Electro‑Osmotic Flow (EOF)
Enables typical CE migration behavior
Compatible with a wide range of established methods
Convenient Storage Format
Supplied on a plastic, non‑static spool
Helps prevent contamination and damage
Precision Dimensions
Inner Diameter (ID): 25 µm
Outer Diameter (OD): 365 µm
Narrow ID supports high‑efficiency separations
Specifications
Type: Bare Fused Silica Capillary for CE
Inner Diameter (ID): 25 µm
Outer Diameter (OD): 365 µm
Length: 10 meters
Coating (Inner): None (bare fused silica)
Coating (Outer): Polyimide
Material: Fused silica
Flow Characteristic: Standard electro‑osmotic flow (EOF)
Country of Origin: USA
Available Length Options
✅ Also available in shorter length:
Typical Applications
Capillary electrophoresis (CE), routine separations, method development, small molecule analysis, and applications requiring standard EOF behavior with flexible length customization