Failure Analysis, Material Characterization, Metrology Equipment

Time-of-flight Secondary Ion Mass Spectroscope (TOF-SIMS)

nanoTOF II

Superior Performance meets Outstanding Operational Environments

By introducing the new developed pulsed ion source, the nanoTOF II has been further improved, which is based on being excellent at high ion transmission of superior triple focusing electrostatic analyzer (TRIFT analyzer).
It also has a more pleasant operating environment due to renovated software.
It is a state-of-the-art TOF-SIMS with wide variety of options to choose from depending on the customer’s application.

Features

Further Developed Pulsed Ion Source ensures high quality results

Minimum beam diameter is 70 nm or less

Ion source can be selected from gallium, gold, and bismuth.

Performance of the newly developed pulsed ion source

The newly developed pulsed ion source enables a minimum spatial resolution of 70 nm or less.

The newly designed bunching mechanism simultaneously increases sensitivity, spatial resolution, and mass resolution performance.

Less than FOV 5 μm is available

The figure on the left shows observation results of a polymer blends of PS/PMMA obtained in high spatial resolution mode.

The structure of polymer blends as a molecular distribution can be revealed by nanoTOF II, which was traditionally observed by AFM.

Clear image can be obtained in high mass resolution mode as well

The figure on the left shows an example of separation and detection of two different types of organic matter existing on the organic material substrate. It can be confirmed that aromatic series hydrocarbons are distributed around low molecular-weight hydrocarbons in the center.

PHI nanoTOF II can simultaneously support high sensitivity, high spatial resolution, and high mass resolution without limiting the measured mass range, thus offering sharper molecular imaging.

Various sputter ion sources supporting a wide range of depth profile applications

Powerful high density low energy cesium ion source provides high depth profile resolution.

Along with high depth resolution, the measurement throughput has been significantly improved.

Minimum ion energy of 250 eV or less is available. High density and fine cesium ion beam even at low energy provides wide range of applications with practical ion sputtering speed.

The figure below shows results from a GaAs/AlGaAs superlattice depth profile analysis. (In the figure a) Sample diagram, b) Results taken by surface profiler. Depth resolution does not degrade even at a depth of approximately 3 μm and it allows accurate observation of the layer structure.Depth resolution does not degrade even at a depth of approximately 3 μm and it allows accurate observation of the layer structure.

Various sputter ion sources supporting a wide range of applications

SmartSoft-TOF provides user friendly sample navigation environment

SmartSoft-TOF was employed which has previously established a popular reputation as software for our XPS instrument (x-ray photoelectron spectrometer) and AES instrument (Auger electron spectrometer), while maintaining the high operability with a traditional dual screen, Graphical User Interface (GUI) of SmartSoft among TOF, XPS and AES employs a common architecture, and users can operate without uncomfortable feeling even among different techniques.

Both of a cover shot of a sample platen taken by the introduction camera and more high resolution image taken by the live-view camera of the analysis chamber can guide measurement point or area precisely.

A variety of sample handling

Sample platen

100 mm square sample platen is as standard. Two type of standard platens which are a front mount and back mount platen can be chosen depending on application.

Sample cooling/heating platen

Sample cooling/heating can work even in operation, not only during sample sample mounting at the sample introduction, but also during moving stage.

Transfer vessel

Transfer vessel, for instance, can work between the customer’s glove box and the nanoTOF II introduction chamber without being exposed into air. Air sensitive samples such as lithium battery or fuel cell are most appropriate.

Turnkey Charge neutralization

The nanoTOF II is providing patented charge neutralization technique, which is directing very low energy electrons and argon ions to an insulating sample simultaneously. This turnkey neutralization technique realizes stable analysis even with high insulating samples.

Wide variety of options

20kV Ar₂₅₀₀⁺gas cluster ion gun
20kV C₆₀ pulsed ion gun
2kV Cs ion gun
5kV gas gun (Ar/O₂)
Sample Cooling/Heating platen
High temperature sample platen
transfer vessel
Oxygen spray

MS/MS Option

The parallel imaging MS/MS option enables simultaneous acquisition of mass spectra and mass images at the exact same analysis area since the secondary ions are generated by a single primary ion source. With high speed (over 8 kHz) and high mass accuracy (below 20 ppm), spectra and images of both MS1 (normal TOF-SIMS analysis) and MS2 (MS/MS option) are generated in a few minutes under static SIMS conditions. In some fields, using only the current MS¹ spectra and images were insufficient for analyzing chemical structures, but this new MS² (MS/MS option) is expected to improve this issue dramatically.