Tissues
In Utero
Stillbirth is the result of varied processes taking place within both the mother’s and baby’s organs during pregnancy – a time of rapid changes.
Subcellular Imaging
Next generation MS instrumentation will enable rapid molecular mapping of cells in tissue enabling elucidation of the chemistry behind biological mechanisms.
Biochemical Microscopy for imaging across Molecular Scales
Developing a transformative cryogenic 3D biochemical microscope, harnessing the power of high-resolution electron microscopy and mass spectrometry imaging
3D Protein Atlas of Brain
Native ambient mass spectrometry (NAMS) is an emerging technology which offers unprecedented potential for integration of spatial and structural biology – it promises major advances in molecular pathology and drug discovery.
Large Volume Tomography
High resolution large volume tomography with electron microscopy has the potential to transform our understanding of life, by linking the atomic and molecular structure of protein complexes in their biological context – the cell.
Stimulated Emission Depletion Microscopy (STED)
We are from investigating how cells communicate with one another, to understand more complex structures such as those found in organoid and tissue formation.
Quantitative Biology Across Scales
Our aim: To combine innovative imaging techniques and AI in ways that will allow researchers to flexibly image across large and small scales – from seeing whole organs to views of cells and the intricate structures within them – and with these, to transform how doctors treat patients.