Analysis of samples related to nanotechnology are very essential to know it's characterization such morphology, structure, size, components, composition and their proprieties.
To cater this demand, We are offering a wide range of analytical services with accurate results in short interval of time at cost effective price.
- Atomic Force Microscope (AFM)
- Transmission Electron Microscope (TEM)
- Raman Spectroscopy
- FTIR Spectroscopy
- UV Spectroscopy
- TGA / DSC
- X-ray Diffraction Spectroscope (XRD)
Advantages of AFM:
Morphology of samples in Nanoscale.
Measure the sizes in Nanoscale.
3D images of sample in Nanoscale.
Measure the roughness in Nanoscale.
Wide range of properties will be measure such us Magnetic Properties, Electrical Properties, Mechanical Properties, Dielectric Properties, Chemical Properties and Thermal Properties.
Advantages of Transmission Electron Microscope :
It provides topographical, morphological, compositional and crystalline information of samples in nanoscale.
At a maximum potential magnification of 1 nanometer, TEMs are the most powerful microscopes. TEMs produce high-resolution, two-dimensional images and allowing for a wide range of application in nanotechnology field.
The TEM images allow to view samples on a molecular level, making it possible to analyze structure and texture.
TEMs are able to proivde information of surface features, shape, size and structure in nanoscale.
Advantages of Raman Spectroscopy:
It is use to identify Chemical composition and structure of samples.
Used in to identify molecules and study chemical bonding.
Advantages of FT-IR Spectroscopy (Fourier-transform infrared spectroscopy):
It a sensitive technique particularly for Identification of simple mixtures of organic and inorganic compounds both as solids or liquids.
It is used to find the composition of samples.
It is used for identification of additive.
Advantages of UV Spectroscopy (Ultraviolet–visible spectroscopy):
It is used in the quantitative determination of different analytics, such as transition metal ions and highly conjugated organic compounds.
It is used to measure the optical properties of samples.
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