Electron energy loss spectroscopy (EELS) combined with advanced microscopy techniques has emerged as a formidable tool for exploring the intrinsic properties of materials at the nanometre scale. By ...

Brillouin spectroscopy and microscopy have rapidly emerged as indispensable tools to characterise the mechanical properties of materials and biological tissues in a non-contact, label-free manner. By ...

Since their inception, optical detection and spectroscopy of single molecules have steadily expanded to an amazing variety of disciplines in natural sciences. Domains as varied as optical microscopy, ...

Raman spectroscopy and microscopy techniques are employed for the analysis of rotational, vibrational, and other low-frequency modes in a molecular system. The interaction of the laser light with the ...

Optical microscopes or probe stations can benefit from adding spectroscopy and digital color imaging with the 508PV TM microscope spectrophotometer. The 508PV™ can also be used to upgrade older ...

Auger electron spectroscopy is a well-established surface-sensitive technique. It has been mostly used for the identification of species on sample surfaces, especially to monitor the process of sample ...

Modern nanofluidic chips can mimic complex chemical and biological environments, but their full potential often depends on ...

There are obvious differences between cancerous cells and normal cells in morphology, chemical properties and mechanical properties. The detection of cytochemical and mechanical properties of tumor ...

The main focus of my group is to study catalytic surface reactions on heterogeneous catalysts via a three-fold approach, employing surface science based planar model catalysts, atomically-precise ...

Since the middle of 20(th) century infrared (IR) spectroscopy coupled to microscopy (IR microspectroscopy) has been recognized as a non destructive, label free, highly sensitive and specific ...