Thermo Scientific Acclaim Trinity Q1 HPLC Columns
Simultaneously separate the herbicides diquat and paraquat with Thermo Scientific Acclaim Trinity Q1 LC Columns. These tri-mode (WCX, WAX, RP) columns offer unmatched high-resolution and high-throughput trace analysis through LC-MS/MS and LC-UV methods. The stationary phase, based on Nanopolymer Silica Hybrid (NSH) technology, provides multiple retention mechanisms, including reversed-phase, anion-exchange, and cation-exchange, for maximum flexibility in method development. Easily optimize the selectivity to accelerate chromatographic separations and increase productivity.
Thermo Scientific Acclaim Trinity Q1 HPLC column is a mixed-mode (WCX, WAX, reversed phase), silica-based application specific column for high-resolution and high-throughput trace analysis of herbicides diquat and paraquat by LC-MS/MS and LC-UV methods. The unique cation-exchange function provides retention and separation for diquat and paraquat while the anion-exchange moiety effectively deactivates the undesirable interaction between the surface silanols and the analytes. As a result, this column provides sufficient retention, excellent resolution, good peak shape, and fast analysis time for diquat and paraquat.
- Superior performance for diquat and paraquat analysis
- Cation-exchange, anion-exchange, and reversed phase selectivity
- Distinctive spatial separation of anion-exchange and cation-exchange regions for unparalleled chromatographic performance
- Adjustable selectivity using mobile phase buffer concentration, pH, and solvent content
- Quick separation of hydrophilic ionic and ionizable analytes without ion-pairing reagent
- Ideal selectivity for simultaneous separation of basic, neutral, and acidic analytes
- Compatibility with mass spectrometry detection, which significantly improves sensitivity and provides conformation at the same time
Acclaim Trinity Q1 | |
Mode | Mixed-Mode |
Phase Type | Trimode phase containing cation-exchange, anion-exchange, and reversed phase functionalities |
Particle Type | Fully Porous |
Particle Size | 3 µm |
Pore Size | 300 Å |
Surface Area | 100 m2/g |
Temperature Limit | 40°C |
pH Limit | 2.5 - 7.5 |
Pressure Limit | 400 bar |