Atomic force microscopy

SPID was created to drive interdisciplinary research bridging the gap between hard nanostructures, soft materials, biological sciences, quantitative mechanical and electrical analysis and nanopatterning. SPID provides a wide range of imaging instrumentation and support facilities for atomic to molecular imaging. It supports a broad range of nanoscale science and technology characterization needs at nanoscale by providing state-of-the-art resources coupled with expert staff. Research at SPID encompasses physical and chemical sciences, engineering and life sciences, and has a strong inter-disciplinary emphasis. Every week, several new users coming from NU campuses, academia, industry, and government laboratories learn to use tools available in the center to carry out their research projects.

The primary focus of SPID is to provide both quantitative and qualitative scanning probe microscopy and biomaterials nanopatterning based highly advanced instrumentations to enable materials, nanopatterning and biomedical research by a diverse group of scientists, industries and clinicians representing numerous disciplines. SPID works in partnership with several industrial partners and specifically Bruker Metrology Surface Division to develop advanced instrumentation for quantitative analysis. SPID serves as a hub for numerous global partnerships both in terms of facility development and research.

For more information about this facility, click HERE

CAMI staff

The Center for Advanced Molecular Imaging (CAMI) provides access to imaging modalities ranging from the nanometer scale to whole animal imaging. These include MRI, nuclear imaging (PET, SPECT, and CT), in vivo bioluminescence and fluorescence imaging, animal housing and prep spaces, and tissue culture.  Image analysis services are available, as are software packages (JIM, Amira, Matlab) and a workstation for users to perform their own data analysis.  Imaging services can be provided for investigators' own animal models, or animal models can be supplied by the Developmental Therapeutics Core.

CAMI also houses a 2 photon confocal microscope operated by QBIC and atomic force microscopes operated by NIFTI.