Nexera Gel Permeation Chromatography System
GPC System
Integrating Analytical Intelligence with Exceptional Instrument Performance
The Nexera GPC System provides highly reliable and highly extensible performance in a wide variety of applications. Hardware that provides rapid instrument stabilization and excellent reproducibility of analytical results, and software that includes analytical workow automation and overlap injection functions and features a user-friendly analysis screen view contribute to improving productivity. In addition, Analytical Intelligence functionality based on state-of-the-art digital technology provides highly reliable analytical results by preventing potential problems and ensuring the instrument is always in a stable state, regardless of the skill, knowledge, or experience level of the analyst.
Features
-
GPC Analysis by Overlapped Injection and Simultaneous Determination of Polymer Additives
-
Protects Expensive GPC Columns:FlowPilot
Mobile Phase Levels Measured in Real Time
Auto-Diagnostics and Recovery
Automated Workflow
-
Create a Calibration Curve in Just Three Steps
Reduce the Work Involved in Creating a Final Report
News / Events
-
PITTCON 2025
March 1-5
Boston, MA -
HPLC 2024
July 20-25
Hilton Denver City Center, Denver Ballroom
Denver, Colorado
-
Shimadzu Scientific Instruments Opens R&D Center
These forward-focused R&D centers will enable us to closely collaborate with customers and stakeholders to develop products that meet tomorrow’s analytical laboratory needs and swiftly deliver these solutions to the marketplace.
-
National American Chemical Society (Spring) 2024
March 18-20
Ernest N. Morial Convention Center
New Orleans, Louisiana
Booth # 2931
-
Shimadzu Scientific Instruments and Telescope Innovations Initiate Technology Partnership
The partners aim to integrate SSI’s High-Performance Liquid Chromatography (“HPLC”) systems with Telescope’s flagship product, the DirectInject-LC.
-
New Nexera™ XS inert UHPLC System Eliminates Challenges of High-Concentration Mobile Phases to Achieve High Sensitivity and Reliability