SCIEX Triple Quad™ 3500 LC-MS/MS System

The SCIEX Triple Quad 3500 LC-MS/MS system combines the ease of liquid chromatography with its inherently broad analyte applicability, with the quantitative power of triple quadrupole tandem mass spectrometry (MS/MS).

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Description

The power of liquid chromatography for separation (LC)

Simplify sample preparation and reduce contamination

Liquid chromatography is amenable to the analysis of a wide array of analytes. In fact, many compounds that are difficult to analyze by GC such as thermally labile and chemically unstable analytes, amines, and semi-volatile compounds, are ideal candidates for LC-MS/MS. GC-based assays, including GC-FID and GCMS, typically require samples to be in an organic injection solvent. This often necessitates the derivatization of hydrophilic analytes to improve their volatility, ionization, or peak shape. Although usually more straightforward, HPLC-UV and HPLC-DAD assays can also involve complicated sample preparation techniques and be labor-intensive depending upon the compound class. In contrast, while LC-MS/MS sample preparation methods can include solid-phase extraction or liquid-liquid extraction, they are often as simple as direct injection, dilution, or protein precipitation. By minimizing sample handling and decreasing the number of sample preparation steps, not only are areas for contamination minimized but time is saved as well. And with today’s ultra-high performance LC systems (UHPLC), you can save even more time with ultra-fast chromatographic separations.

The power of tandem mass spectrometry for analysis (MS/MS)

Increase selectivity and improve the detection limit

Mass spectrometry has been used as a powerful back-end detector for chromatographic separation techniques for over 50 years. It not only acts as a physical detection device that marks the specific retention time for your analyte, but it also provides an additional layer of specificity by providing molecular weight information on each compound. Now imagine that power intensified. With tandem mass spectrometry (MS/MS) you’ll gain yet another level of selectivity through the detection of analyte-specific productions. Through a process called multiple reaction monitoring (MRM), analyte precursor ions are selected in the first stage of analysis, dissociated into fragment ions within the second stage, and selectively filtered and detected within the third stage of analysis. Thus, by sequentially selecting and fragmenting each analyte so that only analyte-specific product ions are detected, the specificity and sensitivity of the assay can be improved exponentially. Additionally, co-eluting analytes and samples within complex matrices that may have been problematic for other assays, can greatly benefit from the additive power that MS/MS provides.

The power of a triple quadrupole for quantitation (Triple Quad)

Save time and achieve the highest assay performance

When it comes to MS/MS for quantitation, the type of mass analyzer matters. Triple quadrupole-based mass spectrometers offer the best-combined specifications for speed, sensitivity, specificity, dynamic range, and multiplexing capabilities for targeted quantitative MRM analysis versus any other type of mass analyzer. They are truly the gold standard for targeted detection and quantitation. With a triple quadrupole-based LC-MS/MS system not only can you achieve greater performance for many of your traditional GC and HPLC-based assays, but new analytes can be added and new assays can be created, continually expanding the portfolio of services you can provide with one instrument. With LC-MS/MS, there’s an essay for every molecule

The power of SCIEX as your partner (SCIEX)

Gain peace of mind with reliable, easy-to-use instrumentation

SCIEX has built its reputation on developing high-quality, robust, and reliable instrumentation that customers worldwide have come to rely upon on a daily basis. We introduced the first commercial triple quadrupole instrument almost 40 years ago and from that day forward our research scientists have never stopped innovating and advancing mass spectrometry technology. Evolved from an industry-leading legacy, the budget-friendly SCIEX Triple Quad™ 3500 LC-MS/MS system contains all of the robust quality engineerings you expect from the SCIEX portfolio.

Scion Chromatographic Solution

Sciex Chromatographic Solution

Mass Range: 5-2,000 Da

With the same wide mass range as our top-of-the-line triple quadrupole instruments, even high mass compounds will form multiply-charged ions within the range of the Triple Quad 3500 LC-MS/MS system so you don’t have to worry that you’ll miss anything.

Ionization: Electrospray Ionization (ESI) and Atmospheric Pressure Chemical Ionization (APCI) probes included

The TurboIonSpray probe enables electrospray ionization and is mild enough to be used for even labile compounds. For ionization of compounds that do not readily form ions in solution such as non-polar compounds, the atmospheric pressure chemical ionization (APCI) probe can be used and may provide better sensitivity.

Polarity Switching: 50 msec in MRM and Scheduled MRM modes

Some analytes preferentially form positively charged ions and some form negatively charged ions. This can present a problem if both types exist within the same sample. With polarity switching, you don’t have to choose the polarity of your essay ahead of time. The Triple Quad 3500 LC-MS/MS system will flip back and forth between charge modes throughout your assay so you get the best sensitivity for every analyte.

Detector Type: AcQuRate Pulse Counting CEM

The AcQuRate™ Pulse Counting Channel Electron Multiplier combines the latest in detector technology with a pulse counting overlap correction algorithm. This means more accurate and precise ion detection over a wide dynamic range while maintaining maximum sensitivity.

Scan Types: Q1 MS, Q3 MS, Product Ion, Precursor Ion, Neutral Loss or Gain, MRM

Targeted MRM quantitation is just one of the many scan types this powerful instrument can perform. With the 3500 Triple Quad LC-MS/MS system you can take advantage of one of the many additional scan types such as a Product Ion scan for structural determination of an unknown compound, a Precursor Ion, or Neutral Loss scan to detect only compounds within a specific class that shares a common structural moiety, or a Q1 or Q3 scan to simply determine the mass of a compound. Alternatively, create an essay that combines multiple different scan types for the ultimate in flexibility.