-
. The EIC will be a discovery machine for unlocking the secrets of the “glue” that binds the building blocks of visible matter in the universe. The machine design is based on the existing and highly optimized
-
. Work with NSLS-II automation team and engineering support staff to develop the next generation of robotics and sample preparation protocols for XCFS. Optimize crystallization systems for XCFS campaigns
-
. The EIC will be a discovery machine for unlocking the secrets of the “glue” that binds the building blocks of visible matter in the universe. The machine design is based on the existing and highly optimized
-
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
-
-slope transistors for energy-efficient microelectronics applications as a part of a DOE Microelectronics Science and Research Center (MSRC) project. You will explore the materials and device physics of 2D
-
, structural biology, cell biology, and bioimaging. We also leverage the unique capabilities of Brookhaven’s National Synchrotron Light Source-II, Laboratory for Biomolecular Structure (LBMS) cryo-EM facility
-
scientific and security problems of interest to BNL and the Department of Energy (DOE). Topics of particular interest include: (i) novel development of deep learning ML models and adaptation of existing ones