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: Work closely with other members of NTI and CNMS to study and improve molecular materials Develop continuum theoretical approaches and novel simulation protocols to predictively model structure and
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leading to the formation and destruction of methyl mercury in sediment-surface water systems. Current research at ORNL in this area spans from the molecular to the field scales although for this position
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(e.g., surrogate modeling) for the inverse molecular formulation of multifunctional polymers/nanocomposites. Contribute to the strategic planning, execution, and assessment of research initiatives, which
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constructs into plants Molecular and phenotypic analysis of genetically modified plants Present research progress in project meetings and national/international conferences Publish scientific results in peer
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molecular genetics, preferably including non-model bacteria. Experience with manipulation of microbial metabolic pathways is desirable Experience analyzing large datasets, including sequencing and ‘omics data
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studies, including classical atomistic modeling and first-principles calculations, of ion solvation structure and electrodeposition process at nonaqueous and aqueous interfaces. This position is within
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molecular pathways in bioenergy plants, and co-optimize above-belowground biomass chemistry and productivity traits using advanced genomic selection and synthetic biology approaches under the Center