Designed for separation of ethane, ethylene, and acetylene. Thermo Scientific™ TracePLOT TG-BOND Q+ GC Columns deliver high performance and unsurpassed stability. The columns use an intermediate-polarity porous divinyl benzene homopolymer phase, and the particles are incorporated into the walls of the tubing for essentially no particle release, which helps prevent damage to detection systems. Applications: • Separation of ethane, ethylene and acetylene to baseline Similar To: GS-Q, Rt™-QS-BOND
For consistent, reproducible analysis of nonpolar and polar compounds, Thermo Scientific™ TracePLOT TG-BOND S GC columns deliver high performance and unsurpassed stability. The columns use a midpolarity divinylbenzene 4-vinylpyridine solid phase, and the particles are incorporated into the tubing for essentially no particle release, which helps prevent damage to detection systems. Similar To: CP-PoraPLOT S, Supel-G45, Rt™-S-BOND
For consistent, reproducible analysis of nonpolar and polar compounds, Thermo Scientific™ TracePLOT TG-BOND U GC Columns deliver high performance and unsurpassed stability. The columns use a polar divinylbenzene ethylene glycol/dimethylacrylate phase, and the particles are incorporated into the tubing for essentially no particle release, which helps prevent damage to detection systems. Applications: • Polar and nonpolar compounds Similar To: HP-PLOT U, Rt™-U-BOND, CP-PoraPLOT U, CP-PoraBOND U, Supel-N PLOT
Perform rapid analysis of regulated PAHs such as persistent organic pollutants (POPs) in complex food and environmental samples using Thermo Scientific™ TraceGOLD™ TG-PAH GC columns. High selectivity and maximum resolution of this capillary silica based column, combined with its unique bonded chemistry, ensure accurate separation of isobaric compounds even at very low concentration levels. The TraceGOLD TG-PAH GC column is regarded as highly robust due to the exceptionally high thermal stability and long life time. Sensitivity is of paramount importance in meeting regulatory standards in the challenging trace analysis. Designed for high resolution analysis of polycyclic aromatic hydrocarbons (PAHs) in complex food and environmental samples. Key benefits • Fast analysis of regulated PAHs • Maximize resolution for critical isobaric PAHs • Max. temperature of 360°C • Low column bleed
Use Thermo Scientific™ TraceGOLD™ TG-VVOC B GC columns for unique selectivity of very volatile organic compounds (VVOC) like ozone precursors, air toxics, and volatile amines in environmental and industrial samples. This highly inert gas chromatography (GC) capillary column, combined with its unique stable bonded phases, ensures excellent chromatographic peak shapes and great stability in difficult matrices such as water or ammonia.
Optimizing volatile organics analysis requires a gas chromatography (GC) column with high thermal stability. Low-bleed, midpolarity Thermo Scientific™ TraceGOLD™ TG-624SilMS GC Columns offer the ideal performance and stability profile for this use. Engineered for Superior Performance • Low to midpolarity phase, similat to 6% cyanopropylphenyl methylpolysiloxane • High thermal stability—maximum temperatures up to 320°C • Highly inert—excellent peak shape for a wide range of compounds • Equivalent to USP G43 Applications: • Residual solvents • Volatile organic compounds • Alcohols • Oxygenates A Leap Forward in Column Performance with Low Bleed and Superior Inertness • A low-bleed, stable column produces consistent results. • Low baseline noise enables improved limits of detection with enhanced resolution of low level analytes. • Minimizing column bleed extends column lifetime, leading to higher productivity. • Reducing column bleed increases reproducibility of the stationary phase over time, resulting in greater run-to-run and batch-to-batch reproducibility. • Superior inertness ensures excellent peak shape and sensitivity, especially for highly active or difficult-to-analyze compounds. Recommended For: • Alcohols • Ketones • Residual solvents • Volatiles Alternative Uses: • Oxygenates Similar to these Columns: • DB-624 • VF-624ms • CP-Select 624 CB • ZB-624
Analyze residual solvents, volatile organic compounds, alcohols, and oxygenates using Thermo Scientific™ TraceGOLD™ TG-624SilMS GC Columns. Both phases offer the low to mid polarity phase, 6% cyanopropylphenyl methypolysilozane. • TraceGOLD TG-624SilMS GC Columns provide high thermal stability with maximum temperatures up to 320°C, which is ideal for volatile organics analysis. They are highly inert, providing excellent peak shape for a wide range of compounds. Engineered for Superior Performance • Low to midpolarity phase, similat to 6% cyanopropylphenyl methylpolysiloxane • High thermal stability—maximum temperatures up to 320°C • Highly inert—excellent peak shape for a wide range of compounds • Equivalent to USP G43 Applications: • Residual solvents • Volatile organic compounds • Alcohols • Oxygenates A Leap Forward in Column Performance with Low Bleed and Superior Inertness • A low-bleed, stable column produces consistent results. • Low baseline noise enables improved limits of detection with enhanced resolution of low level analytes. • Minimizing column bleed extends column lifetime, leading to higher productivity. • Reducing column bleed increases reproducibility of the stationary phase over time, resulting in greater run-to-run and batch-to-batch reproducibility. • Superior inertness ensures excellent peak shape and sensitivity, especially for highly active or difficult-to-analyze compounds. Recommended For: • Alcohols • Ketones • Residual solvents • Volatiles Alternative Uses: • Oxygenates Similar to these Columns: DB-624, VF-624ms, CP-Select 624 CB, ZB-624
Analyze residual solvents, volatile organic compounds, alcohols, and oxygenates using Thermo Scientific™ TraceGOLD™ TG-624 GC Columns. Both phases offer the low to mid polarity phase, 6% cyanopropylphenyl methypolysilozane. • TraceGOLD TG-624 GC Columns provide 90+% resolution of the first six gases in EPA Method 8260 and EPA Method 524.4. These columns are also ideal for EPA Methods 624 and 608. Engineered for Superior Performance • Low to midpolarity phase, similat to 6% cyanopropylphenyl methylpolysiloxane • High thermal stability—maximum temperatures up to 320°C • Highly inert—excellent peak shape for a wide range of compounds • Equivalent to USP G43 Applications: • Residual solvents • Volatile organic compounds • Alcohols • Oxygenates A Leap Forward in Column Performance with Low Bleed and Superior Inertness • A low-bleed, stable column produces consistent results. • Low baseline noise enables improved limits of detection with enhanced resolution of low level analytes. • Minimizing column bleed extends column lifetime, leading to higher productivity. • Reducing column bleed increases reproducibility of the stationary phase over time, resulting in greater run-to-run and batch-to-batch reproducibility. • Superior inertness ensures excellent peak shape and sensitivity, especially for highly active or difficult-to-analyze compounds. Recommended For: • Alcohols • Ketones • Residual solvents • Volatiles Alternative Uses: • Oxygenates Similar to these Columns: DB-624, VF-624ms, CP-Select 624 CB, ZB-624
Use Thermo Scientific TraceGOLD™ TG-PBDE GC Columns for fast analysis of polybrominated diphenyl ethers (PBDEs) with high BDE-209 response. This column is ideal for use with U.S. EPA method 1614. Key benefits of this columns include: • Fast Analysis of PBDE • Excellent separation of BDE-49 and BDE-71 exceeds US EPA method 1614 resolution criteria • Unique treatment gives high BDE-209 response • High thermal stability—maximum temperatures up to 360°C
Perform fast and full separation of blood alcohols by headspace gas chromatography (GC) using Thermo Scientific™ TraceGOLD™ TG-ALC GC columns. These columns are also ideal for analysis of other volatile compounds including abused inhalant anesthetics, γ-hydroxybutyrate (GHB), γ-butyrolactone (GBL), glycols, and common industrial solvents. TraceGOLD TG-ALC columns have low bleed for excellent signal-to-noise ratio, sensitivity, and mass spectral integrity. Note: Blood alcohol analysis requires dual column confirmation when using GC-FID
Analyze toxic dioxins and furan congeners with unsurpassed performance and reproducibility with the Thermo Scientific™ TraceGOLD™ TG-Dioxin GC columns. • Engineered for Superior Performance • Isomer specificity for 2,3,7,8-TCDD and 2,3,7,8-TCDF achieved with a single GC column • High thermal stability—maximum temperatures up to 340°C • Unique selectivity for toxic dioxin and furan congeners for use as a confirmation GC column Applications: • Dioxins • Furans A Leap Forward in Column Performance with Low Bleed and Superior Inertness • This low-bleed, stable column produces consistent results. • Low baseline noise enables improved limits of detection with enhanced resolution of low level analytes. • Minimizing column bleed extends column lifetime, leading to higher productivity. • Reducing column bleed increases reproducibility of the stationary phase over time, resulting in greater run-to-run and batch-to-batch reproducibility. • Superior inertness ensures excellent peak shape and sensitivity, especially for highly active or difficult-to-analyze compounds. Similar To: Rtx-Dioxin2, DB-Dioxin
TraceGOLD™ TG-Mineral Oil GC Column
A nonpolar 100% polydimethylsiloxane, general-purpose, industry-standard column for the analysis of hydrocarbons, pesticides, PCBs, and sulfur compounds.
WAX GC Columns. DB-WAX is ideal for food, fragrance, and flavor applications. The column's lower temperature limit of 20 °C improves resolution of analytes with low boiling points. Features: • Polyethylene glycol (PEG) stationary phase • Close equivalent to USP Phase G16 • High polarity • Temperature limit of 20 °C is lowest of any bonded PEG phase • Improves resolution of low boiling point analytes • High column-to-column reproducibility • Bonded, crosslinked, and solvent rinsable • Exact replacement of HP-WAX • Tested with the tightest industry QC specifications for column bleed, sensitivity, and efficiency • Performance Summary shipped with each column
PLOT GC Columns. GS-Alumina is the most polar alumina phase, consisting of aluminum oxide with proprietary deactivation. It is an excellent general-use column for light hydrocarbon analysis (C1 to C8 hydrocarbon isomers) including C1 to C4 saturated and unsaturated hydrocarbons and cyclopropane from propylene analysis. Alumina columns tend to adsorb water and CO2 which, over time, results in changes in retention time. This column benefits from an advanced, proprietary deactivation process that allows for complete regeneration of a fully moisture saturated column within 7 hours or less at 200 °C.
Rapid-MS GC Column, 5 m 0.18 mm (micro union) DB-5MS 15 m, 0.53 mm, 1.00 μm, 7 inch cage. This is the most common GC column format compatible with Agilent 5890, 6890, 7820, 7890, 8860, and 8890 series GC systems and all non-Agilent GC systems with a similarly sized oven. Agilent J&W Rapid-MS columns for high-speed GC/MS analysis utilize high optimal carrier gas velocity when performed under reduced pressure, to reduce run times by a factor of three to five for temperature programmed runs, and up to a factor of 10 for isothermal runs. Film thickness from 0.1 to 1 µm ensures high loadability, and the higher sensitivity typically increases the signal-to-noise ratio by a factor of three or greater. Features: • Equivalent to 5% phenyl, 95% dimethylpolysiloxane • Fast analysis time improves productivity • Reduce analysis time by 3–5x for temperature programmed runs, up to 10x for isothermal runs • Film thickness from 0.1 to 1 μm ensures high loadability and higher sensitivity • Low bleed • Tested with the tightest industry QC specifications for column bleed, sensitivity, and efficiency • Performance Summary shipped with each column
BPX70 GC Capillary Column 70% Cyanopropyl Polysilphenylene-siloxane • High temperature • Custom designed for separation of fatty acid methyl esters (FAMEs) • Industry standard column for FAME analysis • Ideal for cis/trans isomer separation • Polar phase Application areas: Fatty acid methyl esters, carbohydrates, pharmaceuticals, GCMS applications. Operating temperature: 0.2-0.5 μm film thickness: 50°C to 250/260°C. Suitable replacement for: CP-Sil 88, DB-23, Rtx-2330, SP-2330, SP-2380, VF-23ms, ZB-FAME.
HT8-PCB GC Capillary Column 8% Phenyl (equiv.) Polycarborane siloxane • Unique ultra high temperature column optimizes for 209 PCB congener separations • Optimized for 209 PCB congener separations
SolGel-WAX GC Capillary Column •The world's highest temperature wax phase •Bonded polyethylene glycol •Very robust high-temperature column •Less susceptible to damage by oxygen than conventional wax phases •Polar phase •Low bleed and inert Application Areas: Recommended for highly active compounds
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