Sort by
Refine Your Search
-
composed of biomass (eg. micro/nano-cellulose, natural fibers like hemp) and polymers (e.g. polylacti acid, polypropylene). Under general supervision, the candidate will conduct experimental research around
-
processing of solid-state batteries including sulfide and oxide solid electrolytes with polymer electrolytes and low cobalt cathode materials. The candidate will make extensive use of solid-state synthesis
-
, develops, and deploys composite materials operating in harsh environments. The group’s focus is on advancing the science and technology of polymeric, ceramic and carbon-carbon composites. Research areas span
-
: Experience in neutron scattering and/or X-ray scattering methodologies. Experience with in Langmuir-Blodgett trough and liquid-air sample preparation. Background in soft materials, such as polymers or lipids
-
, operation, and troubleshooting of large-scale advanced manufacturing systems, including metal and polymer 3D printers and hybrid manufacturing processes. The group efforts focus on building the science base
-
the Separations and Polymer Chemistry Section, Chemical Sciences Division, Physical Sciences Directorate, at Oak Ridge National Laboratory (ORNL). As part of the Nanomaterials Chemistry Group, you will have the
-
processing. Development of synthesis procedures to design new polymers Translate of bench-scale (<500 ml) synthesis of polymers (suspension and emulsion polymerization) to pilot scale reactor (20 L
-
translation into energy, environment, and security solutions for the nation. Major Duties/Responsibilities: Conduct synthesis and characterization of new polymers and chemical modification of polymeric
-
of inorganic sorbents for critical mineral extraction from brines, minerals, and recycled lithium-ion batteries. This position resides in the Nanomaterials Chemistry Group in the Separations and Polymer
-
of the molecular and magnetic structures and behaviors of materials including high temperature superconductors, polymers, metals, and biological samples. The facility’s high flux provides a unique source used for