To meet the measurement demands, research is conducted into new instrumentation exploiting a wide range of advanced chemical, biochemical and physical sensors that utilise optical spectroscopies, complex mass spectrometries such ion mobility and secondary ion mass spectrometry, laser generated ultra-sound, laser trapping, polymer microfabrication, microfluidics, optical fibre sensing and PET tomography. Application and development of non invasive spectroscopic techniques to assess tissue viability, hospital based research. Students will have access to state of the art facilities in the Manchester Interdisciplinary Biocentre (MIB), the Photon Science Institute (PSI) and the Paterson Institute for Cancer Research and the Daresbury Laboratory.
The University of Manchester, United Kingdom
To meet the measurement demands, research is conducted into new instrumentation exploiting a wide range of advanced chemical, biochemical and physical sensors that utilise optical spectroscopies, complex mass spectrometries such ion mobility and secondary ion mass spectrometry, laser generated ultra-sound, laser trapping, polymer microfabrication, microfluidics, optical fibre sensing and PET tomography. Application and development of non invasive spectroscopic techniques to assess tissue viability, hospital based research. Students will have access to state of the art facilities in the Manchester Interdisciplinary Biocentre (MIB), the Photon Science Institute (PSI) and the Paterson Institute for Cancer Research and the Daresbury Laboratory.
The University of Manchester, United Kingdom
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