The Thermo Scientific™ Orbitrap Fusion™ Lumos™ mass spectrometer with Electron Transfer Dissociation (ETD) capability represents the ultimate solution for proteomics,
The Thermo Scientific™ Q Exactive™ HF-X is an ultra-high resolution hybrid quadrupole-Orbitrap™ mass spectrometer specifically designed for proteomics, biopharmaceutical and metabolomics research.
The AB SCIEX TripleTOF 6600 is a high-resolution accurate mass (HRAM) liquid chromatography-tandem mass spectrometry (LC-MS/MS) system developed by SCIEX (a Danaher Corporation company).
The AB SCIEX TripleTOF 7600 is SCIEX's flagship high-resolution liquid chromatography-tandem mass spectrometry (LC-MS/MS) system, integrating two breakthrough technologies: Zeno Trap ion enrichment and Electron-Activated Dissociation (EAD) fragmentation.
The Waters Xevo TQ-XS is a high-performance triple quadrupole LC-MS/MS system featuring StepWave XS off-axis ion optics technology.
The Micro 17 from Thermo Fisher Scientific is a high-performance benchtop microcentrifuge designed for rapid separation of small-volume samples. With its compact dimensions (22.5×24.3×35.2 cm) and lightweight design (10.5 kg), it fits seamlessly into limited lab spaces or fume hoods. It delivers a maximum relative centrifugal force (RCF) of 17,000×g (some models up to 21,190×g) and a top speed of 13,300 rpm, making it ideal for DNA/RNA extraction, protein precipitation, and other micro-separation applications.
The IEC MicroCL 17 is a high-performance benchtop centrifuge compliant with International Electrotechnical Commission (IEC) standards. Designed for routine laboratory centrifugation, this model comes with a standard 24-place rotor compatible with various tube sizes, making it suitable for clinical testing, biological research, pharmaceuticals, and chemical analysis.
The Thermo Scientific Speedvac DNA 130 Vacuum Concentrator is a specialized instrument designed for modern molecular biology laboratories, particularly for high-throughput genomics applications. It integrates precision temperature control, efficient vacuum technology, and intelligent programming to maximize recovery rates, purity, and efficiency in DNA/RNA sample processing.
The Eppendorf 5804R Centrifuge is a versatile and high-performance benchtop centrifuge designed to meet the diverse needs of modern laboratories in life sciences, clinical research, biopharmaceuticals, and industrial applications. Renowned for its precision, reliability, and advanced safety features, this model represents the pinnacle of Eppendorf's engineering excellence.
In the field of precision weighing, the name Mettler Toledo is synonymous with authority, reliability, and innovation. Its products are widely used in laboratories, industrial settings, and quality control centers worldwide, serving as indispensable tools for scientists and engineers. The XS series, a classic line of entry-level precision balances, is highly regarded for its excellent cost-effectiveness and stability. Among them, the Mettler Toledo XS32000L Precision Balance stands out as a combination of a "powerhouse" and a "meticulous expert," perfectly addressing the core industry challenge of maintaining high weighing precision across a large capacity range.
In the field of precision instruments for modern laboratories, the name Mettler Toledo has always been synonymous with exceptional quality and cutting-edge technology. As a global leader in precision instruments and weighing equipment, Mettler Toledo remains committed to providing the most reliable measurement solutions worldwide. The PB3002-S/FACT Analytical Balance stands as a perfect embodiment of this commitment, representing not only the highest standard of analytical balance technology but also exemplifying the intelligent and automated development of modern laboratories.
The Mettler Toledo MX5 Microbalance is a benchmark product in the field of precision weighing, designed specifically for laboratory environments that demand extreme accuracy. Its core performance is astounding, boasting a readability of 0.001 mg (1 µg). It can clearly and stably distinguish weight differences of one-millionth of a gram, providing crucial fundamental data support for cutting-edge scientific fields such as nanomaterials research, new drug development, and trace analysis.
