-
access to various professional development opportunities, including a membership to Academic Impressions, LinkedIn Learning, and UT Dallas Bright Leaders Program. Visit https://hr.utdallas.edu/employees
-
development opportunities, including a membership to Academic Impressions, LinkedIn Learning, and UT Dallas Bright Leaders Program. Visit https://hr.utdallas.edu/employees/benefits/ for more information
-
to support a two-year Small Business Technology Transfer project (STTR) funded by the National Science Foundation. The successful candidate is expected to support the development, simulation and
-
Responsibilities Plan and execute computational studies related to modeling polymer properties. Collaborate as part of an interdisciplinary team to design computational experiments and validate models. Prepare
-
Dallas employees have access to various professional development opportunities, including a membership to Academic Impressions, LinkedIn Learning, and UT Dallas Bright Leaders Program. Visit https
-
to support a two-year Small Business Technology Transfer project (STTR) funded by the National Science Foundation. The successful candidate is expected to support the development, simulation and
-
based on particle image velocimetry (PIV), laser-induced fluorescence (LIF), high-speed imaging, and schlieren/shadowgraphy techniques. The resulting dataset will support the development of sea-state
-
professional development opportunities, including a membership to Academic Impressions, LinkedIn Learning, and UT Dallas Bright Leaders Program. Visit https://hr.utdallas.edu/employees/benefits/ for more
-
to conduct research in one of the following areas: Area A: Research Focus – synthesis and evolution of macrocyclic peptides as selective inhibitors/modulators of cancer-related targets. Projects – involve
-
these toolkits into biotechnology platforms and therapeutic reagents. Our research program integrates chemical biology, protein engineering, and cell biology techniques for therapeutic development, primarily in