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Introduction of Nanoscale characterisation

Nanoscale characterization research plays a pivotal role in unlocking the mysteries of the miniature world, enabling scientists to understand, manipulate, and harness the unique properties of materials at the nanometer scale. This field employs advanced techniques and instruments to scrutinize and measure nanomaterials, offering invaluable insights for a wide range of applications across science and technology.

Scanning Probe Microscopy ๐Ÿ”ฌ:

Explore the capabilities of scanning probe microscopes, such as AFM and STM, in visualizing and manipulating nanoscale structures with unprecedented precision.

Spectroscopic Analysis at the Nanoscale ๐ŸŒˆ:

Investigate how spectroscopy techniques like Raman, FTIR, and NMR can be adapted for nanoscale characterization, providing insights into material composition and behavior.

Electron Microscopy and Imaging ๐ŸŒŸ:

Dive into the world of electron microscopy, including TEM and SEM, to capture high-resolution images and gather elemental and structural information at the nanoscale.

Nanomechanical Characterization ๐Ÿ’ช:

Examine techniques like nanoindentation and nanomechanical testing to understand the mechanical properties of nanomaterials, crucial for designing robust nanostructures.

Chemical Analysis of Nanoparticles ๐Ÿงช:

Discover methods for analyzing the chemical composition of nanoparticles, such as X-ray spectroscopy and mass spectrometry, aiding in the development of tailored nanomaterials for specific applications.

Nanoscale characterisation

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