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Nanoelectronic-Based Manipulation and Measurement Tools for Biological Applications NIST only participates in the February and August reviews. We are developing physical measurement tools and
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NIST only participates in the February and August reviews. The goal of this project is to develop nano-electromagnetic imaging using scanning microwave, NV center, and magnetic resonance microscopy
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and signal-acquisition circuitry, and signal-processing/pattern-recognition algorithms. The sensors must be tailored for the particular nature of a given chemical or biochemical measurement problem by
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-deconvolution algorithms that can account for peak asymmetry due to imperfect shims; the use of spatially selective or multidimensional NMR methods; and the development of reference materials, especially for gas
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NIST only participates in the February and August reviews. Project Description:NIST is developing a novel neutron interferometric phase imaging method using a grating-based, far-field interferometer
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Robotic Systems for Smart Manufacturing Program is developing the measurement science needed to enable manufacturers to characterize and understand the performance of robotics systems within
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is how chain architecture, main chain stiffness, and side group flexibility impacts the elastic modulus of ultrathin polymer films. Additionally, we are developing methods for quantifying the tensile
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group is working to develop the measurement science and technology to make multiplexed biomolecular measurements practical, while also working to develop the standards and measurement assurance approaches
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Description The goals of this project are to develop new assays to support the production of safe and effective protein therapeutics. The new generations of biopharmaceuticals are produced using cells in
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tunable materials such as ferroelectrics and multiferroics for adaptable electronics. New materials are continually being developed for electronic applications, and accurate measurements