Postdoctoral researcher
The Infrastructure Materials Group (IMG) at NIST serves as an important resource for developing
science-based tools and measurement standards to enhance the resilience and sustainability of the
nation's physical infrastructure. The degradation of reinforced concrete as a direct result of embedded
steel corrosion remains a monumental challenge, with direct and indirect costs consuming
approximately 6 % of the U.S. Gross Domestic Product.
Current building codes, testing standards, and common-practice heuristics, such as diffusion coefficient,
depth of cover, and chloride per unit mass of cement, are inadequate for assessing the complex
environmental factors and novel binder chemistries that most strongly affect structural service life. To
address this, the IMG "Assessing Steel Corrosion Risk in Innovative Cement Concretes" project aims to
combine advanced electrochemical characterization with species transport modeling. We are seeking a
highly motivated Postdoctoral Researcher with academic training and experience in corrosion science to
develop new metrology standards specific to reinforced concrete structures, which are often in
unsaturated conditions. The selected candidate will focus on measuring the precise rates of corrosion
initiation and progression, ultimately providing the foundational data needed to build high-fidelity
service-life and fragility models for reinforced concrete structures.
Metrology for Steel Corrosion in Innovative Cement Materials
Required Qualifications and Competency Profile:
- The ideal candidate will possess a deep background in materials science, strictly focused on the
fundamental corrosion of metals. - A Ph.D. in Materials Science and Engineering, Metallurgy, Chemistry, or a closely related physical
science discipline, completed within the last five (5) years. - Demonstrated expertise in investigating corrosion mechanisms of metallic systems under a
range of environmental and solution conditions. - Strong experience designing and executing laboratory experiments to study corrosion processes,
including controlled electrochemical testing and environmental exposure studies. - Hands-on laboratory experience with Electrochemical Impedance Spectroscopy (EIS) and Mott-
Schottky Analysis - Hands-on experience executing standard electrochemical corrosion tests, specifically
potentiodynamic polarization, galvanostatic polarization, potentiostatic polarization, corrosion
potential, corrosion current density, and mass loss measurements. - Proficiency in surface/sample preparation of metals for metallographic analysis and advanced
microstructural characterization techniques, specifically Scanning Electron Microscopy- Energy
Dispersive X-Ray Spectroscopy (SEM/EDS), Raman spectroscopy, X-Ray Photoelectron
Spectrocopy (XPS), optical profilometry, optical microscopy, and ion chromatography. - Familiarity with ceramic materials chemical characterization techniques such as X-Ray
Diffraction analysis and X-Ray Fluorescence analysis. - Experience with atmospheric corrosion and field exposure studies in marine environments,
including sample design, deployment, and post-exposure analysis. - Familiarity with accelerated corrosion testing methodologies and relevant ASTM and AMPP
standards, particularly those related to corrosion rate measurements and chloride-induced
corrosion in reinforced concrete systems. - Experience with a range of corrosion cell configurations, including droplet, syringe, and flat cells.
- Demonstrated ability to develop experimental protocols, standard operating procedures (SOPs),
and laboratory infrastructure. - A strong record of scientific productivity, evidenced by publications in peer-reviewed journals.
Preferred Qualifications:
- Knowledge of cement chemistry, including hydration and the complex pore solutions of
traditional or alternative binders. - Knowledge of the Point Defect Model for corrosion, and an understanding of how to obtain the
relevant model parameters from laboratory measurements. - U.S. Citizen is Preferred
Key responsibilities will include, but are not limited to:
The successful candidate will be tasked with designing fundamental laboratory studies, developing novel
metrology, and advancing predictive models. Core duties include:
- Electrochemical Metrology & Testing: Design and conduct advanced bench-top electrochemical
assessments of reinforcement steel to measure corrosion initiation and progression rates under varied
solution properties and environmental conditions. - Advanced Data Collection: Utilize Electrochemical Impedance Spectroscopy (EIS), potentiodynamic
polarization, open-circuit potential (OCP), and linear polarization resistance (LPR) to accurately quantify
corrosion current density, corrosion potential, and charge transfer resistance. Also, develop
measurement plans to obtain Point Defect Model (PDM) parameters for modeling rebar passivation and
passive film breakdown. - Microstructural Characterization: Perform high-resolution materials characterization utilizing Scanning
Electron Microscopy- Energy Dispersive X-Ray Spectroscopy (SEM-EDS) to study the steel-concrete
interface and understand the morphology of localized degradation. - Model Integration: Translate fundamental bench-top corrosion data and transport property
measurements into accurate inputs for numerical and structural models, connecting atomic-level
physicochemical mechanisms to building-scale performance.