Synchronous Vertical Dual View (SVDV) for superior speed and performance
Technical notes | 2016 | Agilent TechnologiesInstrumentation
The demand for rapid, accurate and cost-effective elemental analysis spans environmental monitoring, food safety and industrial quality control. Synchronous Vertical Dual View (SVDV) technology in ICP-OES addresses the need for high sample throughput, reduced gas consumption and robust handling of complex matrices without sacrificing analytical performance.
This technical overview presents the Agilent 5110 ICP-OES equipped with SVDV technology. The primary objectives are to demonstrate how dual axial and radial plasma views can be recorded simultaneously, to quantify gains in speed and to highlight reduced argon usage compared to conventional dual-view instruments.
The SVDV configuration uses the DSC to synchronously combine axial emissions from the plasma core and radial emissions from the plasma side into a single polychromator measurement. This eliminates sequential reads and allows both views across the full wavelength range in a single analysis. Axial measurement is reserved for trace-level elements and radial measurement for high-concentration elements, mitigating easily ionized element (EIE) interferences.
Compared to conventional dual-view ICP-OES systems, the 5110 SVDV achieves more than twice the sample throughput and consumes up to 50 % less argon. Linear dynamic range for Na at 589.995 nm extends from 0.1 to 2500 ppm in a single run. Analysis of NIST Bovine Liver 1577 SRM shows recoveries of 101 % for K (9700 mg/kg) and 99 % for Na (2430 mg/kg), and 96 % for trace elements such as Mn and Cd after microwave digestion.
Advances may include integration of automated sample handling, cloud-based data processing and AI-driven interference correction. Further developments in detector technology and plasma sources could extend sensitivity and matrix tolerance, enabling broader application in pharmaceuticals, petrochemicals and clinical diagnostics.
The Agilent 5110 ICP-OES with Synchronous Vertical Dual View offers a non-compromised solution for high-performance elemental analysis. By merging axial and radial measurements in one step, laboratories achieve faster turnaround, lower costs and reliable results across a wide range of sample types.
ICP-OES
IndustriesManufacturerAgilent Technologies
Summary
Importance of the Topic
The demand for rapid, accurate and cost-effective elemental analysis spans environmental monitoring, food safety and industrial quality control. Synchronous Vertical Dual View (SVDV) technology in ICP-OES addresses the need for high sample throughput, reduced gas consumption and robust handling of complex matrices without sacrificing analytical performance.
Goals and Overview of the Study
This technical overview presents the Agilent 5110 ICP-OES equipped with SVDV technology. The primary objectives are to demonstrate how dual axial and radial plasma views can be recorded simultaneously, to quantify gains in speed and to highlight reduced argon usage compared to conventional dual-view instruments.
Instrumentation Used
- Agilent 5110 ICP-OES with vertical plasma torch
- Dichroic Spectral Combiner (DSC) for light path merging
- VistaChip II CCD detector
- SVS 2+ switching valve
- Cooled Cone Interface (CCI)
Methodology and Instrumentation
The SVDV configuration uses the DSC to synchronously combine axial emissions from the plasma core and radial emissions from the plasma side into a single polychromator measurement. This eliminates sequential reads and allows both views across the full wavelength range in a single analysis. Axial measurement is reserved for trace-level elements and radial measurement for high-concentration elements, mitigating easily ionized element (EIE) interferences.
Main Results and Discussion
Compared to conventional dual-view ICP-OES systems, the 5110 SVDV achieves more than twice the sample throughput and consumes up to 50 % less argon. Linear dynamic range for Na at 589.995 nm extends from 0.1 to 2500 ppm in a single run. Analysis of NIST Bovine Liver 1577 SRM shows recoveries of 101 % for K (9700 mg/kg) and 99 % for Na (2430 mg/kg), and 96 % for trace elements such as Mn and Cd after microwave digestion.
Benefits and Practical Applications
- High throughput: simultaneous dual-view reads reduce analysis time
- Reduced operating cost: lowest argon consumption per sample
- Enhanced robustness: vertical torch tolerates high %TDS and organic solvents
- Improved data quality: minimized EIE interferences and wide linear dynamic range
Future Trends and Possibilities
Advances may include integration of automated sample handling, cloud-based data processing and AI-driven interference correction. Further developments in detector technology and plasma sources could extend sensitivity and matrix tolerance, enabling broader application in pharmaceuticals, petrochemicals and clinical diagnostics.
Conclusion
The Agilent 5110 ICP-OES with Synchronous Vertical Dual View offers a non-compromised solution for high-performance elemental analysis. By merging axial and radial measurements in one step, laboratories achieve faster turnaround, lower costs and reliable results across a wide range of sample types.
Reference
- Agilent Technologies. Technical Overview of the 5110 ICP-OES with Synchronous Vertical Dual View. Publication Number 5991-4853EN, 2016.
- Agilent Technologies. Analysis of Animal Food Products Using the Agilent 5100 SVDV ICP-OES. Application Note 5991-4868EN.
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