X Ray Diffraction:

We have a unique expertise and infrastructure in one laboratory combining X-ray diffraction, scattering and 3D imaging going from the Ångström to the meter scale.


Make the ultimate x-ray diffraction for powder, thin films, nanomaterials and 3D objects.   An enclosure with sufficient space for Ө- Ө goniometer equipped with double sliding doors for normal access at the front doors to be opened during maintenance or reconfiguration. Enclosure to be on wheels for relocation and space saving.  Optical encoded goniometer with a measuring circle diameter of 480mm, 360 degrees·        Integrated analysis package, with all functionality:  display of data, treatment of data (peak search, indexing etc) search-match-identify, cluster analysis. 
Spin Coater for operation with vacuum pump. Systems are constructed in Natural Polypropylene. Spin speed: ranging from 1 to more than 12.000rpm. Spin speed accuracy less than 0.1rpm and speed stability: <1%. Semi-Automatic Dispense. System and compatible and suitable vacuum pump included. 100% oil-free vacuum pumping to ensure pure transfer, evacuation and compression. Clockwise and Counterclockwise Rotation. Film thickness: from 10 nm to 10 µm.

•Specifications & Features:
•Full external computer controlled with measurement modes for fluorescence, phosphorescence, chemiluminescence and bioluminescence.
•Computer selectable filters for excitation and emission
•Software includes Kinetic, life times, scan, concentration, single wavelength measurements and Instrument validation
•Excitation/emission wave length range :less than 200 nm– up to 1100 nm
•High resolution: able to detect sub-picomolar fluorescein
•Light Source: Ozone Free 150W xenon lamp
•Fluorescence reference materials Kit for calibration
•Rapid scan rates more than 300 nm / sec
  Scope: •Variable pressure and environmental Field Emission Gun Scanning Electron Microscope (FEG-ESEM).
- All of which can accommodate multiple sample and imaging requirements for industrial process control lab, material Science labs, and life science labs.
•Versatile high performance instrument with three modes (high vacuum, low vacuum and ESEM) to accommodate the widest range of samples of any scanning electron microscope (SEM) system and equipped with analytical system such as energy dispersive spectrometer (EDS).
• The field emission gun (FEG) contain a S/TEM detector for bright field and dark field sample imaging, address the need to investigate a wide variety of materials and characterize structure and composition with flexibility to handle the challenges of  today’s wide   ranging research needs. View any sample and get all the data – surface and compositional images combined with accessories for determining material properties and elemental composition.
•Provides in situ dynamic experiments that offer many possibilities for material research for example :
•Image hydrated samples.
•Crystallization or phase transformation during humidity or thermal cycling.
•Particles in suspensions or self-assembly process.
•Corrosion in metals
•Tensile testing, with heating or cooling if desired.

•High-resolution Schottky Field Emission Scanning Electron Microscope with column optimized for high brightness, high contrast.
•Operate in three selectable vacuum modes to accept any type of samples such as conducted samples, non-conducted samples, wet samples, dirty or Oily and hydrated samples.
•Chamber pressure can be controlled up to 4000Pa in ESEM mode (Extended low vacuum) •Equipped with a dedicated stages in SEM and STEM modes for studying dynamic changes and wet samples with embedded software control.
•Resolution closed to or better than 1.0 nm for secondary electron detector at 30 KV •Embedded Image processing and enhanced software
•Stage navigation must be possible by mouse clicking on a low magnification overview image.
•Laboratory staff always top-up on toxic, corrosive, flammable and explosive or other hazardous substances work, that there must be related to the security measures to ensure their safety, especially for those that emit enough to produce a harm to human body quantity or concentration of gas, steam or particles are now more and more important, therefore, all of these work must be in the front of ventilation and contained in the fume hood door closed condition.
• We know that chemical laboratories tend to be the most dangerous places, and that chemical elements can produce a lot of toxic gas or particles when they are synthesized and decomposed. When it's serious, it can ignite or explode. Chemical experiments usually have to be guided by an authoritative chemical expert, and the safety factor of the chemistry lab is also required. Therefore, the chemistry lab must install fume hood. Not only have that, but also buy a good quality, high safety factor fumed hood.