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@nist.gov 301.975.5656 Description The Nanomaterials Research Group is interested in developing analytical methods to foster improved design of nanoparticle-based therapeutics. The design principles
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precision microelectromechanical systems (MEMS) to improve measurement accuracy and throughput in scanning probe microscopy (SPM), particularly for scanning tunneling microscopy (STM) and atomic force
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distribution of nanomaterials, and to study the fate of nanomaterials in the environment or in biological systems. key words Buckeyballs; Compositional imaging; Metals in nanomaterials; Nanomaterials
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development. We are developing tools and protocols for quantum networks, focusing mainly on sources, detectors, and timing synchronization systems that can enable entanglement distribution over metropolitan and
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utilizes new techniques like First Order Reversal Curves (FORC) to characterize the distributions in these properties. A variety of experimental equipment is used, including superconducting quantum
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@nist.gov 301.975.6740 Description With the development of nanoparticle and colloidal technologies that include processing in the dispersed phase (or are fundamentally liquid phase processes), there is a need
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Description By creating photon states with photon numbers of more than one, it is possible to make measurements with resolution beyond conventional limits. For example, in interferometric applications
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absorption fine structure), development of data-analysis approaches and computer software for simultaneous structural refinements using multiple types of data combined with ab initio theoretical modeling
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301.975.8087 Description One of the benefits of nanoimprint lithography (NIL) is that it can directly pattern functional materials, not just sacrificially resist formulations that are used to transfer
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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