Showing results: 1 - 15 of 18 items found.
-
SPM-9700HT -
Shimadzu Corp.
Making the Unknown Visible Scanning probe microscope (SPM) is a generic term for microscopes that scan sample surfaces with an extremely sharp probe to observe their three-dimensional image or local properties at high magnifications. The SPM-9700HT takes high-throughput observations to the next level.
-
attoMICROSCOPY -
attocube systems AG
The mission to create scientific impact has kept attocube at the frontier of cutting edge research instrumentation. Decades of combined experience in all relevant fields, an excellent team, and close cooperations with some of the world’s leading research institutes have evolved into a broad portfolio of high-end cryogenic scanning probe microscopes.
-
SpectraView 2500 -
DYNEOS AG
* Ultra-low noise SPM* Colocalized nanochemical analysis by IR, THz, Raman, AFM* Cantilever probes are completely transparent* Versatile configurations: Kelvin Probe chemical potential, electrical, thermal and photon force
-
MultiView 2000 -
Nanonics Imaging Ltd.
an advanced single probe scanning probe microscope enabling a variety of modes of AFM/SPM/NSOM imaging. Nanonics has designed The MultiView 2000TM for excellence in scanning probe microscopy while allowing for near-field and far-field optical NSOM/Raman/TERS imaging without perturbation. The Multiview 2000TM is the only commercially available instrument that offers both tip and sample scanning. This versatility is important for different operation modes where the user can now choose whether the sample or tip is static. The Multiview 2000TM further offers the most stable feedback mechanism available in the form of normal force feedback with tuning fork actuation.
-
SPM-8100FM -
Shimadzu Corp.
The new HR-SPM scanning probe microscope uses frequency detection. his instrument is not only capable of ultra-high resolution observations in air or liquids, but for the first time enables observations of hydration/solvation layers at solid-liquid interfaces.
-
VS-SKP -
Ametek Scientific Instruments
The Kelvin Probe experiment uses a nondestructive method to determine the relative work function difference between the probe and the sample. Work function describes the energy required to liberate an electron from the surface of a conductor; electrochemists often interpret this as the difference from an electrode’s Fermi Level, average energy of electrons, and that of vacuum.
-
-
LabRAM Nano -
HORIBA, Ltd.
Fully integrated system based on SmartSPM state of the art scanning probe microscope and LabRAM HR Evolution fully automated Raman micro-spectrometer. LabRAM HR Nano offers full automation and versatile compatibility with outstanding performance.
-
"V45B" -
Anfatec Instruments AG
This low-noise 3-channel high voltage amplifier V45B was especially designed for the control of piezo-stack based tripod scanners in scanning probe microscopes. Three inputs with 10 V are amplified into three differential output voltages (e.g., Xout = 45 V and - Xout =- 45V).
-
XploRA Nano -
HORIBA, Ltd.
Fully integrated system based on SmartSPM state of the art scanning probe microscope and XploRA Raman micro-spectrometer.Compact, fully automated and easy-to-use, the XploRA Nano concentrates the power of AFM-Raman into an affordable yet full-featured package, making TERS imaging a reality for all. The TERS proven system.
-
InfraScan™ 400TDM -
Checkpoint Technologies, LLC.
The InfraScanTM 400TDM is the newest evolution of Checkpoint's pioneering top-down laser scanning and emission tools. This tool is specifically designed to accommodate any commercially available probe station, up to 300 mm wafers. The combination of Checkpoint Technologies, world leading laser scanning microscope and its best in class emission system into a single tool, gives users the most sensitive and easy to use system on the market. The TDM can be configured with up to 3 lasers and a choice of InGaAs, MCT or Si CCD emission cameras.
-
TopoStitch -
Image Metrology A/S
topoStitch™ offers the easiest and most accurate way to stitch topographic or greyscale images from Scanning Probe Microscopes (SPM’s), profilers, interferometers, confocal microscopes or any other instrument type. All images are placed automatically according to stage position coordinates when stored in the image files. Otherwise, the Grid Layout Wizard helps to lay out images in seconds. topoStitch™ even offers advanced snapping and semi transparent rendering, which makes it easy to place and adjust images manually.
-
LabRAM Soleil Nano -
HORIBA, Ltd.
Fully integrated system based on our OmegaScope scanning probe microscope and LabRAM Soleil Raman microscope. LabRAM Soleil Nano offers unprecedented capabilities for direct co-localized AFM-Raman and photoluminescence measurements. AFM imaging modes (topographic, electrical, mechanical, etc.) and Raman acquisition can be performed either sequentially or simultaneously at the same location of the sample surface. Optical nano-resolution is also achievable with Tip-Enhanced Raman Spectroscopy and Photoluminescence (TERS/ TEPL). LabRAM Soleil Nano is compatible with the environmental chamber for AFM and Raman measurements in controlled atmosphere and at low temperatures.
-
SmartSPM -
HORIBA, Ltd.
The SmartSPM Scanning Probe Microscope is the first 100% automated system that offers its cutting-edge technology of ultra-fast, metrological and high-resolution measurements for the most advanced materials research at the nanoscale in all AFM and STM modes. With the SmartSPM zooming in from large up to 100 µm overview scans down to atomic resolution has become a reality. Its design has been specially developed to be capable of being seamlessly integrated with optical spectroscopies (SNOM, Raman, Photoluminescence and TERS/SERS techniques).
-
SPIP -
Image Metrology A/S
SPIP™ or Scanning Probe Image Processor - is an advanced software package for processing and analyzing microscopic images at nano- and microscale. It has been developed as a proprietary software by Image Metrology and is unique in the microscopy and microscale research market. With the high level of usable features, SPIP provides industrial and academic researchers with an advanced toolkit for working with microscope images, incl. extracting data from most microscopy file types, cleaning and enhancing data, analyzing measurements, visualizing and reporting analysis results. The software is used for research and innovation in a variety of industries such as pharmaceutical, cosmetics, semiconductors, hard disk manufacturing, polymer and aluminum manufacturing. Furthermore, SPIP is widely recognized as the standard microscope image analysis software for research and education at leading universities, and has been cited in more than 1200 scientific publications.