Built for routine quantitative analysis in challenging matrices, Shimadzu's rugged LCMS-8030 combines world-leading LC performance with advanced mass spectrometry technologies to create a unique system approach to ultrafast detection. With polarity switching of 15msec, an ultrafast scan speed of 15,000 u/sec, and 500 MRMs/second, the LCMS-8030 easily keeps pace with the chromatographic resolving power of our world-leading UHPLC systems. And with minimized cross talk, excellent linearity with wide dynamic range, and easy maintenance, the LCMS-8030 delivers excellent laboratory efficiency.
Fusion of Ultra Fast MRM and Ultra Fast Polarity Switching of 15msec
An Ultra Fast Scan Speed of 15,000 u/sec
500 MRMs per Second
Robust System Provides Long-term Data Stability
UFsweeper™ Technology Dramatically Minimizes Cross Talk
Excellent Linearity with Wide Dynamic Range
Minimize Instrument Downtime with Easy Maintenance
Single-vendor Solution Provides Seamless Operation
Quantitation Browser for Effective Multi-analyte Quantitation
Built for routine quantitative analysis in challenging matrices, Shimadzu's rugged LCMS-8030 combines world-leading LC performance with advanced mass spectrometry technologies to create a unique system approach to ultrafast detection. With polarity switching of 15msec, an ultrafast scan speed of 15,000 u/sec, and 500 MRMs/second, the LCMS-8030 easily keeps pace with the chromatographic resolving power of our world-leading UHPLC systems. And with minimized cross talk, excellent linearity with wide dynamic range, and easy maintenance, the LCMS-8030 delivers excellent laboratory efficiency.
- Fusion of Ultra Fast MRM and Ultra Fast Polarity Switching of 15msec
- An Ultra Fast Scan Speed of 15,000 u/sec
- 500 MRMs per Second
- Robust System Provides Long-term Data Stability
- UFsweeper™ Technology Dramatically Minimizes Cross Talk
- Excellent Linearity with Wide Dynamic Range
- Minimize Instrument Downtime with Easy Maintenance
- Single-vendor Solution Provides Seamless Operation
- Quantitation Browser for Effective Multi-analyte Quantitation
