Dual conversion dynode detectors used to capture high capacity of the ion signal. Advanced Data Dependent Experiments possible (i.e.MS n for n=1 to 15 for structural analysis.Automatic Gain Control (AGC) used to ensure ideal number of ions stored in linear ion trap each scan.High Resolution Isolation allows for the separation of an isobaric interfering species down to 0.3 Da or for isolation of thermally labile compounds.
![mass finder chemistry intrument mass finder chemistry intrument](https://cdn3.iconfinder.com/data/icons/chemistry-filled-line/614/6561_-_Balance-512.png)
#Mass finder chemistry intrument full
The incorporated LIFT device allows full fragment ion spectra to be acquired within a single scan.
![mass finder chemistry intrument mass finder chemistry intrument](https://i.ytimg.com/vi/DhFqYSIGYC8/maxresdefault.jpg)
The UltrafleXtreme is also designed for TOF/TOF, a two stage, tandem mass spectrometry technique that can generate and record MS/MS or MS 2 spectra. In reflectron mode the UltrafleXtreme has high mass resolving capabilities up to 40,000 and ppm mass accuracy. The matrix compound is typically a small organic molecule, chosen for its ability to absorb photons at 355 nm from the frequency-tripled Nd : YAG laser.
![mass finder chemistry intrument mass finder chemistry intrument](https://i.pinimg.com/originals/91/c8/54/91c85440209265f414bf16a29479e260.jpg)
The flight trajectory of the ions in the tube can be modeled kinematically, therefore relating the time of flight to the mass to charge ratio (m/z) of the ion. Gas phase ions are formed via laser ablation and desorption of a solid chemical matrix/analyte sample, and are subsequently accelerated down a 2-meter flight tube. It uses delayed-extraction for linear mode, reflectron mode and MS/MS (TOF/TOF using LIFT mode) scans. The Bruker UltrafleXtreme is a MALDI (Matrix-Assisted Laser Desorption Ionization) time of flight (TOF) TOF mass spectrometer.