solariX
- Patented ParaCell detector
This detector concept departs from traditional MRMS cell strategies and provides uncommon broadband ion stability resulting in resolution orders of magnitude above other detection schemes. - 2xR technology realizes scientific visions and increases productivity
Magnetron control technology, a newly developed, high sensitivity, low noise preamplifier increase the experimental speed and instrument productivity. - Optional ESI/MALDI dual source
This optional source can either run liquid samples introduced via the electrospray ionization (ESI) source or from MALDI samples.


Specifications
7T solariX | 12T solariX | 15T solariX | |
Maximum resolving power | >10M | >10M | >10M |
Mass accuracy (internal) | 600 ppb | 300 ppb | 250 ppb |
ESI | yes | yes | yes |
MALDI | optional | optional | optional |
ETD | optional | optional | optional |
Detector | ParaCell XR or 2xR | ParaCell XR | ParaCell XR |
Magnetic Field | 7T | 12T | 15T |
Annual Cryogen Fill | yes | yes | yes |
Quench Line Required | yes | yes | yes |
SOLARIX
Routine IFS for unambiguous results
Routine IFS
achieved by cutting edge XR technology.
Confident
results by reading the elemental composition.
MRMS technology
leadership for your application.
Important Features to Consider
Achieve routine IFS by cutting edge technology
Compared to other FTMS techniques, the solariX and solariX 2xR feature a combination of latest MRMS, ParaCell and Magnetron control technology. This is prerequisite for the highest possible mass spec resolving power available and results in routine access to Isotopic Fine Structure (IFS) information for a broad mass range.
Patented ParaCell detector
The ParaCell is the enabling technology for solariX XR and 2xR. This detector concept is a departure from traditional MRMS cell strategies and provides uncommon broadband ion stability resulting in resolution orders of magnitude above other detection schemes. The ParaCell in combination with Absorption Mode Processing algorithms is the prerequisite for routine access to IFS information.
2xR technology realizes scientific visions and increased productivity
Bruker’s 2xR solariX instruments uses magnetron control technology and a newly developed, high sensitivity, low noise preamplifier, realizing scientists long standing vision to exploit harmonics detection schemes and thus increasing the experimental speed and instrument productivity.

Optional ESI/MALDI dual source
solariX series instruments allow for operation of a unique ESI/MALDI dual source. This optional source can either run liquid samples introduced via the electrospray ionization (ESI) source or from MALDI samples. This highly sensitive MALDI source uses Bruker’s smartbeam-II laser technology and provides several small focus diameters for various applications with different sample preparation techniques. Fast switchover between MALDI and ESI operation is controlled by a software push button, so even simultaneous ESI/MALDI operation is possible.
Benefits
The power to see the unseen
Read the elemental composition for confident results
IFS delivers an additional dimension of information missing in data from other types of mass spectrometers. Exploiting solariX XR and solariX 2xR IFS capability, not only is the mass of the analyte measured but also its elemental constituents pinpointed. Combined with Brukers SmartFormula algorithms, assignment of sum formulas can be done with utmost confidence.
Leverage MRMS technology leadership for your application
7T solariX XR MALDI instruments with its unique ESI/MALDI dual source are the definitive standard for label-free small molecule MALDI imaging studies. This allows for mapping of the localization of drugs and metabolites and providing spatial correlation with omics studies.
Flow Injection Analysis (FIA) MRMS workflows with 7T solariX 2xR simplifies and accelerates sample throughput in phenomics and discovery metabolomics by omitting time consuming chromatography.

Understanding the molecular compositional of petroleum allows for the prediction of its behavior and properties as well as environmental fingerprinting. Molecular classification using high end 15T MRMS systems solves problems of petroleum processing.
Applications
Discover previously hidden information to proof your results
Bruker’s eXtreme Resolution Magnetic Resonance Mass Spectrometry (MRMS) technology enables scientists to see vital “hidden” information that is missing in data from other types of mass spectrometers. This advanced technology addresses the needs of specialists in a variety of focus areas that all desire efficient and precise solutions for their analytical problems. The unique value of this technology is Isotopic Fine Structure, resulting in unmatched confidence for compound identification that previously required guesswork.

High-Fidelity
MALDI
Imaging
MRMS offers unrivaled mass resolving power and outstanding mass accuracy in the ppb range. This results in high-fidelity MALDI Imaging data with the ability of straightforward identification of compounds from tissue directly with utmost confidence. Label-free molecular visualization is an enormous advantage in comparison to radioactive labeling procedures, such as whole-body autoradiography.

‘Phenotyping’ by Magnetic Resonance Mass Spectrometry (MRMS)
MRMS eXtreme Resolution enables the acceleration of sample throughput in phenomics and discovery metabolomics research by omitting time-consuming chromatography. Flow Injection analysis (FIA) or MALDI based workflows provide access to compounds not readily detectable by LC-MS analysis and simultaneously analyze known and unknown metabolites.

Molecular
Classification
of Petroleum
Crude oils with similar or even identical bulk chemical properties can behave completely different. Therefore, detailed information on relative abundances of those problematic compound classes is of major interest to e.g. optimize processes. Understanding the molecular composition of petroleum allows for the prediction of its behavior and properties as well as environmental fingerprinting.
System Components

ionBooster

GC-APCI II

Direct Insertion Probe (DIP)

APPI II

APCI II

