-
applies platforms for state-of-the-art techniques for Accelerated Nanomaterial Discovery, integrating synthesis, advanced characterization, physical modeling, and computer science to iteratively explore a
-
for Accelerated Nanomaterial Discovery, integrating synthesis, advanced characterization, physical modeling, and computer science to iteratively explore a wide range of material parameters. The CFN develops and
-
applies platforms for state-of-the-art techniques for Accelerated Nanomaterial Discovery, integrating synthesis, advanced characterization, physical modeling, and computer science to iteratively explore a
-
Apply Now Job ID JR101106Date posted 05/03/2024 WHY WORK AT BNL? Brookhaven National Laboratory (www.bnl.gov) delivers discovery science and transformative technology to power and secure
-
Microscopy Program, utilizing the world-leading expertise in X-ray imaging at NSLS-II and in collaboration with the researchers at the Center for Functional Nanomaterials (CFN) and the Computational Science
-
of data from both prototypes and future detector modules. The work will focus on designing the software, algorithms, and workflows that will enable LAr TPC scientists to perform efficient and world-class
-
The Soft Inelastic X-ray Scattering (SIX) Beamline of National Synchrotron Light Source II (NSLS-II) provides world-class capabilities for Resonant Inelastic X-ray Scattering (RIXS), offering ultra
-
in ionic liquids, in pure form and in mixtures containing solutes. The purposes of the studies are to understand: 1) the fundamental radiation chemistry of ionic liquids (such as excess electrons and
-
learning; (vii) computational and experimental workflows and pipelines for science and engineering problems. The position includes access to world-class HPC resources, such as the BNL Institutional Cluster
-
for Functional Nanomaterials) and Biology Department on confocal light microscopy and live-cell imaging, LBMS on single-particle cryo-electron microscopy and cryoelectron tomography. NSLS-II is a world-leading