Opportunity at National Institute of Standards and Technology (NIST)
Design, Characterization, and Modeling of Sequence Controlled Polymers
Material Measurement Laboratory, Materials Science and Engineering Division
Please note: This Agency only participates in the February and August reviews.
|Debra J Audus
|Kathryn L. Beers
Development of quantitative structure-property relationships for polymers has been largely limited due to the inability to systematically control polymer sequence especially under real-world conditions where process history, crystallization, and degradation cannot be neglected. This project seeks to tackle this problem through the rational design of model polymer systems with varying degrees of sequence control, including well-defined, periodic, gradient, and block monomer sequences achieved through controlled polymerization methods. The polymers will then be subjected to a variety of conditions, such as degradation, and undergo quantitative analysis including rheology, DSC, scattering, etc. Concurrently, computational modeling will be used to predict both structure-property relationships and degradation rates based on the number and distribution of the monomers with the aforementioned analysis serving as validation. Proposals will focus on either the synthetic or computational approaches to these challenges but should address the integration of synthesis, simulation, and polymer metrology for sequence-controlled polymers.
polymers; size-exclusion chromatography; polymer synthesis; structure-property relationships; molecular dynamics; rheology; polymer crystallization; neutron scattering; x-ray scattering; quantitative polymer degradation; polymer life cycle analysis
Open to U.S. citizens
Open to Postdoctoral applicants