Sort by
Refine Your Search
-
Research program. The project aims to integrate a diverse suite of high-resolution observations (atmospheric, land surface, and infrastructure), diagnostic/predictive models, and civic engagement to provide
-
FEM technique to quantitatively characterize amorphous materials, with high spatial and temporal resolution. • You will be part of a team performing experiments to lead the discovery of key physical
-
and performing x-ray measurements at NSLS-II. Examples of target areas include (but are not limited to): (i) characterization of defects due to electromigration effects in high-current density
-
chemistry, EUV exposure mechanisms, high-resolution patterning performance, and dry-etching characteristics of the synthesized hybrid resists by utilizing electron beam lithography (EBL), low-energy electron
-
latest Airy-scan super-resolution confocal microscope; NSLS-II’s X-ray-based microscopes; CFN’s single molecule FLIM/FRET system; LBMS’s electron microscopes for cryo-EM tomography; and high-performance
-
. Protein expression, detection, purification and functional analyses. Perform transcriptome level protein-protein interaction and NGS sequencing (PROPER-seq). Multiscale bioimaging of various diseased plant
-
. This position has a high level of interaction with an international and multicultural scientific community. Candidates with skills that are appropriate for this project (as demonstrated by peer-reviewed
-
microscopy, planned experiments will include atomic-scale imaging, high energy-resolution electron energy-loss spectroscopy (EELS), 4D scanning transmission electron microscopy (STEM), and cryogenic microscopy
-
Lab and to maintain the expertise and facilities in specialized high technology areas essential for this work. Development of facilities is motivated by present Brookhaven research programs and
-
detection equipment to support sponsors in operation and research. In addition, the Group also works on artificial intelligence and machine learning to address questions related to detection and safeguards