Quantiam currently houses the most powerful nano and surface analysis tools within Canada's private sector. With our extensive in-house capabilities, we can provide unique technical services in characterization of nanomaterials, surfaces, coatings and monolithic products with rapid turn-around and internet instrument control.
Quantiam’s small spot X-ray Photoelectron Spectroscopy System (30 micron diameter to 0.8×2 mm2) can provide quantitative element analysis and information of the chemical states of the surfaces of most solid materials. Surface cleaning and depth profiling with argon sputtering is achieved by a programmable, 1-5 kV raster ion gun. A low energy electron flood gun was equipped for charge compensation. The unit is equipped with an aluminum (Al) anode, monochromatic X-ray source and a magnesium / aluminum (Mg/Al) dual anode X-ray source.
Our Scanning Auger Multiprobe consists of Auger Electron Spectroscopy (AES), Scanning Auger, Secondary Electron Microscopy (SEM), Backscattered Electron Microscopy (BEM) and Secondary Ion Mass Spectrometry (SIMS). Capabilities also include an elevated temperature stage (800°C) and a cryogenic fracture stage.
Quantiam houses a state-of-the-art Field Emission Scanning Electron Microscope (FE-SEM) accessorized with IDE’s MK4 EMI Cancellation System. The microscope is capable of acquiring electron images with a lateral resolution of 1.2 nm at 30 kV.
The facility also has the latest generation Bruker XFlash semiconductor SDD detector for energy-dispersive spectrometry (EDS). The detector has a large active area of 60 mm2 and a maximum pulse load of 1,500,000 cps providing instant spectrum visibility and live quantification. The Bruker’s HyperMap option facilitates elemental maps acquisition which contains a spectrum for each pixel. It enables on- and offline processing, live background removal and deconvolution.
Quantiam also houses an “InTouch Scope” Scanning Electron Microscope (SEM). This tungsten-tip microscope is user-friendly ( an entire series of imaging operation is carried out on a single touch-screen monitor). A large specimen chamber allows samples up to 150 mm in diameter. It can acquire electron images with a lateral resolution of 4.0 nm at 20 kV.
The microscope is equipped with a Bruker series 5 XFlash semiconductor SDD detector for EDS. The detector has a large active area of 30 mm2 and a maximum pulse load of 750,000 cps allowing instant spectrum visibility and live quantification. The Bruker’s HyperMap option facilitates elemental maps acquisition which contains a spectrum for each pixel. It enables on- and offline processing, live background removal and deconvolution.
State-of-the-Art Bruker D8 Advance with DaVinci
Quantiam has acquired a new Bruker AXS D8 ADVANCE with state-of-the-art DAVINCI design – an all-purpose X-Ray Diffraction (XRD) solution. The intelligent beam path components of this system provide true plug’n play functionality requiring minimum user intervention. The unit is equipped with Bruker’s LynxEye XE Super Speed Detector. The unique combination of sensor chip and front-end electronics makes this detector the highest performing detector on the market. Its superb energy resolution makes Kβ filters and secondary monochromators redundant. A Flip-Stick sample changer allows us to collect diffraction patterns on nine samples automatically.
Surface-XRD with High-temperature Stage - Bruker D8 Advance
Quantiam’s second XRD unit was upgraded in 2011 to incorporate a LynxEye Super Speed Detector. With Bruker’s compound silicon strip technology, the LynxEye detector dramatically increases measured intensities by approximately 200 fold without sacrificing resolution and peak shape. A Flip-Stick sample changer allows us to collect diffraction patterns on up to nine samples automatically, unattended – an excellent tool for QA applications.
The unit, when equipped with a point scintillation counter, has a grazing angle capability for high surface sensitivity. It also has a high-temperature to 1600 °C and controlled atmosphere capability to allow in-situ data collection.
Quantiam has worked with 3-D Laser Systems to adapt its laser mapping technology to tubulars used in petrochemical applications, providing non-destrucive coating thickness mapping of internal surfaces with a resolution of +/- 6 microns. The technology represents a quantum leap in non destructive Quality Assurance of coated complex shapes, and is further being adapted for surface finish mapping (through tubular length) and bulk inclusion analyses (with eddy current attachment).