118 structural-engineering-"https:"-"https:"-"https:"-"https:"-"https:"-"U.S" positions at NIST
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the structural changes of materials during indentation deformation. Recently, this methodology has been employed in in-situ studies on the phase transformation of crystalline and amorphous silicon thin films and
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on determination of structural, thermophysical, and transport properties of systems and materials. We also aim to enable materials design from the function-structure relationship standpoint, as applied to metal
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the synthesis-process-structure-property relationship for quantum solid state materials. References: Liang, et al., 2025. Real-time experiment-theory closed-loop interaction for autonomous materials science
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energies determined by molecular composition, structure, and vibrational mode type. Various optical methods exist to record these vibrational spectra, enabling access to the rich chemical landscape within
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detection system. We are working on combining this technology with state-of-the-art microfluidics. The systems of interest include but are not limited to electrochemical electrified interfaces, double layers
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stimulates the search for more effective approaches. Two groups of thermophysical property prediction methods are under rapid development presently – Quantitative Structure-Property Relationship (QSPR) methods
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) and determining the duration of recovery for physical, social, and economic systems and their impact on the community. Expertise is desired in a number of disciplines, including engineering (civil
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; materials; chemistry; engineering