319 web-programmer-developer-"https:"-"https:"-"https:"-"https:"-"PhD-Jobs" positions at NIST
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, such as blood vessels and bone, we also need to develop a platform for in situ mechanical measurements, which may be achieved by measuring deformation under controlled stress and flow. 3D printing is
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using vibrational spectroscopy, photoelectron spectroscopy, contact angle, and eGaIn electrical measurements to address technology barriers which will enable successful development and subsequent
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, health care, and nuclear security applications. No instrument today directly measures all decays in a sample with sufficient energy resolution to uniquely identify each radionuclide. NIST is developing a 4
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research in high-impact science and engineering fields that utilize vapors, liquids, and aerosols. Our experimental scientists focus on developing fundamental measurements and novel methodologies that can
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Sorbent materials are candidates for many industrial and sustainable development applications, including carbon capture, hydrogen and methane storage, gas separation and purification, and catalysis. However
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development of advanced models for the prediction of the above physical properties in such solid solutions. We use first-principles density functional theory calculations to uncover the microscopic physics
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Description We are currently developing microsystems for multiplexed biomolecular analysis (e.g., gene expression, microRNAs, proteins, cytokines) at the single cell level. Research goals include developing
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causes of data variability to improve product quality and reproducibility [1]. Simulation Modeling: Developing theoretical and mathematical descriptions of physical phenomena, including both physics-based
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provides the thermochemical foundation for new noninvasive breath analysis techniques. Law enforcement applications include the development of breath analysis devices for the quantitative measurement of drug
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. At NIST, we use large-geometry SIMS instruments to develop new particle analysis methods, improve analytical accuracy and reproducibility, and collaboratively develop new microparticle reference materials