Brand: IONOPTIKA
Model: J105 SIMS
Minimum order quantity: 1
Unit: Unit
Packaging instructions: Standard packaging
advantage
Fast high-resolution 2D and 3D molecular imaging.
The quality accuracy and resolution of all samples are consistent, independent of the sample height.
Our Water Source has incomparable sensitivity and imaging mass spectrometry performance.
A series of high-performance ion beams suitable for various applications.
High quality precision and tandem mass spectrometry are used for precise peak allocation.
Full low-temperature sample processing capability.
3D mass spectrometry imaging
You don't need to run the "sputter only" loop again to obtain high-resolution 3D chemical images!Due to the unique combination of high-performance cluster ion beams and innovative beam focusing ToF analyzers, both analysis and low damage etching occur simultaneously on J105. Due to the use of bundled beams for analysis, there is no need for a "sputter only" loop and each layer is analyzed, making J105 SIMS an extremely accurate tool for 3D imaging and depth profile analysis.
Consistency of all samples
For each experiment, obtaining a completely flat sample is not always feasible, and for J105 SMIS, you no longer need to do so! The innovative design of J105 separates the main beam from the ToF analyzer, providing consistent quality accuracy independent of sample height. Therefore, even complex 3D structures such as brackets, brackets, and fibers can be analyzed without compromising performance.
Sensitivity without comparability
J105 utilizes Ionoptika's world-renowned cluster beam technology to provide unparalleled sensitivity to complete molecular species, which is crucial for advanced applications and high-resolution imaging. Now, this exciting new technology adopts a new water cluster source, improving the sensitivity and excellent imaging ability of intact molecular ions such as lipids, drugs, and metabolites.
Bioanalysis
J105 was initially designed for biological analysis and equipped with a series of functions to obtain good results from any biological sample.
High resolution liposome omics analysis
High performance gas cluster ion beams greatly improve the yield of high-quality molecular ions (such as lipids), producing extremely rich spectra even at resolutions as low as 1.5 µ m.
3D imaging
The fragments and sub surface damage generated by large concentrated beams are very small, making them very suitable for three-dimensional biological analysis. The analysis and low damage etching on J105 are continuous and parallel, because every time the ion beam is turned on, secondary ions are collected, resulting in very high depth resolution.
Drug imaging of water cluster beams
GCIB's new water cluster plugin provides unprecedented molecular sensitivity. Imaging low abundance species (such as drugs and metabolites) in a high-resolution and clearer manner.
Freeze hydration analysis
In order to obtain reliable results from biological systems, frozen hydration analysis has been proven to be one of the effective methods. J105 seamlessly integrates into the Cryo workflow, with standard configurations including a glove box and liquid nitrogen cooling sample processing system.
Confidently complete peak tasks
Spatial resolution, quality resolution, and consistent quality accuracy make peak recognition a routine procedure, even on rough or curved samples. For final allocation, the tandem MS mode is provided as the standard mode.
Material analysis
J105 has multiple functions and is an ideal choice for material analysis applications.
Ion beam suitable for different types of samples
There are up to 5 different ion beams to choose from, including GCIB, C60, gold clusters, oxygen and cesium sources, as well as a range of spot sizes and currents, with one ion beam suitable for each type of sample.
Samples with curvature, roughness, or undulating morphology
Due to its clever design, J105 can provide consistent quality accuracy and quality resolution on all samples, regardless of changes in sample height.
Three dimensional analysis of polymers based on gcIB
Using a brand new high-performance gas cluster ion beam for faster and more in-depth analysis than ever before. Suitable for polymer and hidden interface analysis.
