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The Power of Precision
Advanced Quantitative Approaches Made Easy with the TripleTOF® 6600+ System
Achieve the Optimum of Quantitative Performance
Built and optimized for large-scale quantitative mass spectrometry, the TripleTOF 6600+ System offers sensitive and robust quantitation using dedicated low flow source technology. Redesigned TOF entrance optics, along with software improvements within the forthcoming Analyst® TF Software 1.8, deliver optimized ion beam control, detector tuning, and scheduled ionization to decrease the risk of downtime over long term usage. Combined with the characteristically fast scanning capability of previous TripleTOF platforms, SWATH® Acquisition, and the ultimate approach for data-independent digital archiving of samples, the instrument you see before you could unlock a world of quantitative data you have never experienced before.
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New source hardware designed to cater to the varied requirements of core and research labs, the TripleTOF® 6600+ delivers both flexible and easy to use low flow ionization for optimal sensitivity and throughput for a given sample set. Combined with the quantitative power of current and future SWATH® Acquistion methods, the TripleTOF® 6600+ system has the performance to deliver sensitive, large scale quantitative data for any application.
Flexibility
Switch seamlessly between analytical, microflow and nanoflow according to the task at hand with OptiFlow® Ion Source and OptiFlow™ Interface.
Robustness
Redesigned TOF entrance optics, Scheduled Ionization and ion beam control to maximize uptime.
Quantitative Power
Primed for next-generation SWATH® Acquisition for the ultimate data independent acquisition.
| OptiFlow® Turbo V Source | A single source for all low flow applications. SteadySpray™ analytical, micro and nano probes allow the source to deliver flow rates from 200 µL/min down to 100 nL/min, while optimized heater geometry eliminates the need for optimizing spray position. |
| OptiFlow™ Interface | Tool-free switching between flow regimes. OptiFlow™ Interface allows you to easily select the most appropriate flow rate for your experiment without the hassle of breaking vacuum. |
| TripleTOF® System scan speed | Up to 100Hz MS/MS acquisition gives the system unique qualitative and quantitative capabilities, from fast targeted quantitation to highly multiplexed methods. Fast DDA approaches allow more information to be captured from shorter run times, while SWATH® Acquisition, with up to 200 windows per cycle, is capable of producing complete digital records of samples, covering all observable species in a dataset that can be retrospectively mined over and over. |
| Analyst® TF Software 1.8 | New functionality for scheduling ion spray voltages allows the user to control when LC flow is sprayed into the instrument reducing the introduction of potentially contaminating species from your LC. New optimized ion transmission control and detector optimization algorithm give added control over the flux of ions through the instrument to reduce the risk of downtime. |
| Primed for the evolution of SWATH® Acquisition | Variable-window SWATH® Acquisition offers the latest in data independent acquisition, delivering sensitive quantitative data on a large scale across all observable species, allowing the user to create a permanent digital record of their sample that can be interrogated over and over. The TripleTOF® 6600+ system is the platform that will host the next generation of SWATH® Acquisition. |
Optimum Performance for Microflow Applications
OptiFlow® source and OptiFlow™ interface are built for simple, accessible low flow applications that deliver high sensitivity quantitative and qualitative data. The OptiFlow® Turbo V ion source allows the robust and routine implementation of microflow LC-MS methods for high sensitivity quantitation, large-scale, sensitive metabolite profiling and high throughput proteomics methods using intelligent probe technology and optimized SteadySpray™ micro and analytical flow probes to ensure no optimization of the probe is needed and that a stable spray can be reproducibly achieved time after time.
Easy to Use Nanoflow for Challenging Sample Types
The OptiFlow® Turbo V Source will also uniquely allow the user to switch to nanoflow regimes for highest sensitivity of proteomics samples where sample amount or concentration makes their analysis challenging such as low volume biopsy samples, IP pulldowns or detection of low abundance proteins in a targeted analysis. Using the forthcoming SteadySpray™ nano probes, the OptiFlow® Turbo V Source delivers the high performance nanospray that these sample types demand, with minimal downtime and setup time.
The Right Flow Rate for the Right Job
Choosing the right flow rate to tackle a specific analytical challenge is simple with OptiFlow. Switching between low flow regimes no longer requires breaking vacuum, changing source or re-optimisation of source parameters, allowing you to change between the flow rates appropriate for the job at hand without compromise.
Optiflow® Turbo V Source for Microflow
A revolution in microflow separations, the Optiflow Turbo V source supports flow ranges from 1 to 200 µL/min, with a simple tool-free set-up and no manual adjustments needed to achieve optimal spray conditions.
Optiflow™ Interface
Switch between flow rate regimes in minutes with Optiflow™ Interface. Tool-free fitting of the appropriate components allows simple switching between microflow and nanoflow regimes without the need to break vacuum.
Optiflow® Turbo V Source for Nanoflow
Simple, plug-and-play nanoflow capability takes the hassle out of nanospray applications. Integrated column oven and SteadySpray™ nanoprobes allow easy setup of nanoflow applications with no need for optimization.
Scanning SWATH® Acquisition
The SWATH story takes you further by allowing every single MS/MS iteration to be acquired and directly correlated to the correct precursor. The data produced by Scanning SWATH® Acquisition therefore contains all the information that would be contained in a multitude of different experimental approaches in a single all-encompassing dataset.
Precision Medicine and Industrialized OMICS
The ability to acquire and process comprehensive multi-OMICS data in a high-throughput manner opens the door to large clinical studies in precision and stratified medicine via large-scale biomarker discovery in a manner that can be verified across thousands of samples. Microflow approaches give the ideal balance of sensitivity and throughput for protein and metabolite analysis, while SWATH Acquisition allows large-scale, precise quantitative analysis t
Large-scale quantitative proteomics with 6600+
Optimized high-throughput microflow, SWATH Acquisition and fast data processing with OneOMICS™ in SCIEX Cloud. The ultimate end to end solution for biomarker researchers.
Accelerated Proteomics
Rapid quantitative profiling of up to 100 samples per day using microflow chromatography with variable windowed SWATH® Acquisition.
Digitizing Biobanks
SWATH® Acquisition for large-scale digitization of big tissue biobanks.
Core OMICS and Life Science Research
The versatility of the 6600+ system to deliver low-flow applications with minimal setup and optimization allows core facilities with diverse OMICS workloads to select the optimal approach for each experiment and subsequently deliver superior results to collaborators in a timely fashion. In combination with high-performance analytical tools such as SWATH Acquisition, and collaborative, high-performance data processing platforms on SCIEX Cloud, core facilities and Life Science researchers can read
A Single Source Solution for Low Flow Chromatograp
Easily switch between flow regimes, while maintaining high robustness and sensitivity with the OptiFlow Turbo V Source.
Fast Whole Proteome Profiling With Microflow
Deep mining of proteomes that can be achieved overnight. Microflow enables protein identification using a fractionation approach in just 15 hours of acquisition time.
Quantitative Proteomics in CRISPR Gene Editing
SWATH® Acquisition for interrogating protein changes induced by CRISPR-Cas9 gene editing.
Drug Discovery and Development
Targeted high-resolution approaches offer distinct advantages for quantitation of drugs and drug metabolites in enhanced selectivity for complex matrices and the simplicity of method development. Low flow quantitative approaches using the OptiFlow® Turbo V source deliver these approaches with high sensitivity for bioanalytical and compound screening workflows, and offer distinct advantages in the detection and quantitation of low level drug metabolites in ADME studies.
Enhanced Quantitation of Challenging Analytes
Enhanced Quantitation of Challenging Analytes
Benefits of High-Resolution Quantitation
Selectivity with no method development: discover why high-resolution MRM approaches are the most flexible for targeted quantitation.
The Key to More Sensitive Met ID
Improve, identify, and characterize more small molecule metabolites with the use of OptiFlow Source and a TripleTOF® 6600+ System.
OptiFlow Turbo V Source
A revolution in microflow separations, the OptiFlow Turbo V source supports flow ranges from 1 to 200 uL/min, with a simple tool-free set-up and no manual adjustments needed to achieve optimal spray conditions.
OptiFlow™ Interface
A universal interface that allows fast switching between nanoflow, microflow and analytical flow regimes without the need to break vacuum on the mass spectrometer system.
SWATH® Acquisition
The only data independent acquisition (DIA) technique that allows comprehensive detection and quantitation of virtually every detectable compound in a sample (MS/MSALL). SWATH Acquisition gives you confidence in your quantitative results and virtually eliminates the risk of missing a critical component.
M5 MicroLC
Increase your productivity to routinely analyze hundreds of compounds in hundreds of samples – day after day, year after year with the M5 MicroLC System.
NanoLC 400 Series
No longer choose between the high sensitivity of nanoflow and the high-throughput of microflow. Use one flexible system to move from discovery to high-throughput targeted assays.
Differential Ion Mobility Technology
The SelexION® Technology is an effective differential mobility separation tool for improving data quality for qualitative and quantitation analysis of challenging samples requiring advanced analytical selectivity.
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