The columns include extensions to the PLOT PT product line with aluminum oxide and molecular sieve stationary phases, as well as DB-sulfur SCD (sulfur chemiluminesence detection) columns that increase system reliability and detection stability.
"We continually talk to customers to understand their needs and provide the solutions they're looking for. Ruggedness and productivity, for example, are key drivers in the energy and chemistry industries," said Michael Feeney, vice president and general manager of Agilent's Supplies Division, Chemical Analysis Group. "Our new columns evolved from conversations with customers who want to run more samples with less routine maintenance of their GC systems."
Agilent PLOT columns are the optimal choice for analysis of permanent gases and light hydrocarbons.
The new Agilent J&W PLOT PT GC columns have dual-ended, integrated particle-trapping technology that prevents PLOT stationary-phase particles from moving downstream. The reduction in particle shedding results in less downtime for system maintenance and greater efficiency.
Agilent's new PLOT PT GC columns are available in 36 configurations, including the new porous polymer (Q and U), aluminum oxide and molecular sieve stationary phases.
Agilent J&W DB-sulfur SCD columns are optimized for the analysis of sulfur compounds using sulfur chemiluminesence detection.
In collaboration with Dow Chemical and other leading companies, Agilent has developed new DB-sulfur SCD columns. Optimized for GC/SCD analyses, these new columns enable petroleum and chemical refiners to better monitor sulfur to meet stringent combustion-emission regulations. Low column bleed extends SCD signal stability to reduce the frequency and expense of detector maintenance, resulting in improved instrument uptime. Excellent peak shape for reactive sulfur compounds enables reliable low-level detection.