Agilent 7000A Triple Quadrupole GC/MS - Research Institute for ...
Agilent 7000A Triple Quadrupole GC/MS - Research Institute for ...
Agilent 7000A Triple Quadrupole GC/MS - Research Institute for ...
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<strong>Agilent</strong> 7890A <strong>GC</strong>: Critical success<br />
factor <strong>for</strong> <strong>GC</strong>/<strong>MS</strong>/<strong>MS</strong> analysis.<br />
<strong>Agilent</strong>’s new 7890A <strong>GC</strong> is the perfect front-end <strong>for</strong> the<br />
<strong>7000A</strong> <strong>Triple</strong> <strong>Quadrupole</strong> system. The industry-leading<br />
<strong>GC</strong> gives you everything you need to take your lab to the<br />
next level of <strong>GC</strong>/<strong>MS</strong>/<strong>MS</strong> per<strong>for</strong>mance, including advanced<br />
chromatographic capabilities, and powerful new productivity<br />
features, such as Capillary Flow Technology. Plus, of course,<br />
legendary <strong>Agilent</strong> reliability.<br />
<strong>Agilent</strong> per<strong>for</strong>mance and reliability<br />
Fifth-generation electronic pneumatics control (EPC) and<br />
digital electronics set a new benchmark <strong>for</strong> retention time,<br />
precision, and repeatability and help make the 7890A<br />
<strong>Agilent</strong>’s most dependable <strong>GC</strong> ever.<br />
Higher productivity<br />
Faster oven cool-down, advanced automation features, and<br />
faster <strong>GC</strong> oven ramps let you get more done in less time, at<br />
the lowest possible cost per sample—all easily incorporated<br />
into your existing methods.<br />
<strong>Agilent</strong> Capillary Flow technology<br />
Available in a number of useful<br />
configurations, <strong>Agilent</strong>’s inert,<br />
low-dead volume Capillary Flow<br />
devices open the door to highly useful<br />
techniques such as “QuickSwap”<br />
column change-out, flow splitting,<br />
backflushing, and Deans switching<br />
that can save time and resources<br />
and improve your analytical results.<br />
Backflushing shortens analysis time by 33 minutes.<br />
In this analysis, the lower trace employing oven bakeout<br />
takes an additional 33 minutes at 320°C to remove<br />
high boilers that elute after the analytes of interest.<br />
Backflushing (upper trace) removes all the high boiling<br />
components in seven minutes, at only 280°C.<br />
Backflush capability improves data quality, while shortening<br />
cycle time and increasing column life. It reduces ion<br />
source contamination by keeping excess column bleed<br />
and heavy residues from being introduced into the mass<br />
spectrometer. It also eliminates ghost peaks, providing<br />
a significant improvement in data integrity.<br />
To learn more about the <strong>Agilent</strong> <strong>7000A</strong> <strong>Triple</strong> <strong>Quadrupole</strong> <strong>GC</strong>/<strong>MS</strong>, visit www.agilent.com/chem/<strong>7000A</strong><br />
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