Low-flow UHPLC-MS columns connection guide
Guides | 2022 | Thermo Fisher ScientificInstrumentation
High-performance liquid chromatography (HPLC) at low flow rates is essential for high-sensitivity analyses in proteomics and metabolomics. Reliable, zero-dead-volume connections and precise emitter alignment improve reproducibility and ionization efficiency, critical for modern UHPLC-MS workflows.
This guide aims to standardize procedures for attaching Thermo Scientific nanoViper UHPLC columns—including single and double formats—to EASY-Spray and Nanospray Flex ion sources. It covers alignment, fastening techniques, temperature control options, and system equilibration to optimize performance.
The connection process is divided into emitter alignment, column mounting, and integration with autosampler and source.
Used Instrumentation:
Standardized connection sequences minimize dead volume and mechanical stress, ensuring stable spray and reproducible retention times. Proper emitter spacing delivers consistent ionization, while controlled fitting torque prevents leaks. Temperature-regulated sources maintain spray stability for extended runs.
Advances may include automated torque-controlled fittings, integrated sensor feedback for emitter alignment, and hybrid nanoMPLCs for multiplexed sources. Adaptation to emerging high-throughput proteomics and single-cell analysis will drive further innovations in column and source interfacing.
Implementing nanoViper connections with precise emitter positioning and controlled torque streamlines UHPLC-MS workflows. Consistent methods for column mounting and equilibration underpin high-quality data in proteomics, metabolomics, and bioanalysis.
Thermo Fisher Scientific. HPLC columns low-flow UHPLC-MS columns connection guide. 2022.
Consumables, LC/MS, LC columns
IndustriesManufacturerThermo Fisher Scientific
Summary
Significance of the Topic
High-performance liquid chromatography (HPLC) at low flow rates is essential for high-sensitivity analyses in proteomics and metabolomics. Reliable, zero-dead-volume connections and precise emitter alignment improve reproducibility and ionization efficiency, critical for modern UHPLC-MS workflows.
Study Overview and Objectives
This guide aims to standardize procedures for attaching Thermo Scientific nanoViper UHPLC columns—including single and double formats—to EASY-Spray and Nanospray Flex ion sources. It covers alignment, fastening techniques, temperature control options, and system equilibration to optimize performance.
Methodology and Instrumentation
The connection process is divided into emitter alignment, column mounting, and integration with autosampler and source.
- Emitter alignment: Use the emitter positioning tool to set a 0.0 mm gap at the ion transfer tube and 3.0 mm between the emitter and inlet.
- Column attachment: Install nanoViper fittings fingertight, then apply a maximum of one-eighth turn with the torque tool to ensure zero-dead-volume seals.
- Temperature control: For EASY-Spray columns, plug in the heater cable and adjust the integrated controller; optional for Nanospray Flex.
- Transfer lines: Connect UltiMate Vanquish Neo UHPLC autosampler valve to column inlet, and column outlet to nano emitter or source inlet via Viper unions.
- Double columns: Use two nanoViper capillaries and unions; assemble MicroTight adapter and metal emitter for Nanospray Flex setups.
Used Instrumentation:
- Vanquish Neo UHPLC System
- Thermo Scientific EASY-Spray and Nanospray Flex ion sources
- nanoViper and Double nanoViper columns
- Emitter positioning tool (P/N ES232)
- Torque tool for fingertight fittings
- MicroTight adapter (1/16" to 1/32") and metal emitters
- Column oven for temperature-controlled setups
Main Results and Discussion
Standardized connection sequences minimize dead volume and mechanical stress, ensuring stable spray and reproducible retention times. Proper emitter spacing delivers consistent ionization, while controlled fitting torque prevents leaks. Temperature-regulated sources maintain spray stability for extended runs.
Benefits and Practical Applications
- Rapid, tool-free installation reduces downtime between analyses.
- Zero-dead-volume design enhances peak shape and sensitivity.
- Modular fittings support single or dual column configurations.
- Temperature control expands method flexibility for thermally labile compounds.
Future Trends and Opportunities
Advances may include automated torque-controlled fittings, integrated sensor feedback for emitter alignment, and hybrid nanoMPLCs for multiplexed sources. Adaptation to emerging high-throughput proteomics and single-cell analysis will drive further innovations in column and source interfacing.
Conclusion
Implementing nanoViper connections with precise emitter positioning and controlled torque streamlines UHPLC-MS workflows. Consistent methods for column mounting and equilibration underpin high-quality data in proteomics, metabolomics, and bioanalysis.
Reference
Thermo Fisher Scientific. HPLC columns low-flow UHPLC-MS columns connection guide. 2022.
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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