Liquid Chromatograph-Mass Spectrometry / Triple Quadrupole LC-MS/MS

Title : Liquid Chromatograph-Mass Spectrometry / Triple Quadrupole LC-MS/MS

Content : Triple quadrupole mass spectrometry is a versatile tool that can be adapted to a wide range of applications. Shimadzu’s triple quad LC-MS/MS instruments offer superior performance and sensitivity to meet the demands of high-level quantitative analysis including pesticide screening, drug-of-abuse testing, environmental monitoring and biomarker evaluation.

Title : LCMS-8060NX

Content : The LCMS-8060NX is our flagship triple quadrupole LC/MS system with exceptional sensitivity and detection speeds. With our latest UFMS™ technology, this LC/MS/MS boasts increased robustness and ease-of-use, as well as an Analytical Intelligence function to streamline your analytical process and maximize your laboratory throughput. Equipped with the new IonFocus™ electrospray unit and improved ion guides, the LCMS-8060NX delivers more reliable analysis and maximized uptime. It also offers higher efficiency over all workflow steps, making it an ideal choice for pharmaceutical, clinical, and food/beverage companies seeking greater operational efficiency.

Title : LCMS-8060

Content : The LCMS-8060 features an optimized ion guide and new technologies incorporated in the ion transport optical system. As a result, the ion sampling efficiency and ion focusing capability are significantly increased, to achieve improved sensitivity, approx. 3 times better than that of the LCMS-8050. Inheriting the high-speed performance of the LCMS-8050, this flagship model in the UFMS series features both the world's highest level of sensitivity and the world's highest throughput. It is capable of detecting ultra trace components in complex matrices, which have been difficult to detect to date, both quickly and with high sensitivity. This will contribute to further improvements in data quality in all types of trace quantitative analysis applications, such as for biological samples, which requires the highest level of sensitivity.

Title : LCMS-8050

Content : Thanks to a heated ESI probe and the UFsweeper III collision cell, the LCMS-8050 achieves a level of sensitivity 30 times that of the LCMS-8030.The UF Technology, the ultrafast measurement technology built into the LCMS-2020 has further evolved, so measurements can now be performed even faster, without sacrificing data quality. At the same time, more compounds can now be measured in simultaneous qualitative and quantitative analysis. The system can be used in a wide range of fields for a variety of applications, such as quantitative analysis which requires high sensitivity, multicomponent simultaneous analysis, and screening.

Title : LCMS-8045

Content : Equipped with a heated ESI probe, the LCMS-8045 has the highest sensitivity in its class. The heated ESI probe, high-temperature heating block, desolvation line (DL) and drying gas, all act to promote desolvation and prevent contamination due to the penetration of liquid droplets into the MS unit. This improves the robustness, so reliable and high-accuracy data can be obtained over the long term. The LCMS-8045 also achieves the world's fastest scan speed (30,000 u/sec) and polarity switching speed (5 msec). These enable ultra-high-speed, high-sensitivity analysis. The excellent cost performance of this system is demonstrated in food safety, environmental analysis, and other quantitative analyses, it can be upgraded to the LCMS-8060.

Title : Nexera Mikros

Content : Improvement in the sensitivity of an LC/MS/MS method can generally be achieved by reducing the analytical scale of the analysis. However, reducing the analytical scale significantly to nano-flow reduces the throughput, stability, and robustness as a trade-off for greater sensitivity. Nexera Mikros, a Shimadzu microflow LC/MS system, offers a balanced solution to increased sensitivity with less compromise to throughput and robustness, using flow rates from 1 to 500 μL/min and column I.D. from 0.1 to 1 mm. It achieves stable and sensitive quantitative analysis through robust performance of microflow solvent delivery, optimized ion source design, the unique UF-Link column connection, and system variety that supports a wide range of applications.