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assemble a wide variety of dye molecules on to nanotube surfaces. The atomic lattice of a SWCNT is expected to exert strong orienting force on the adsorbed dye molecules, thus making it possible to control
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and shape memory polymers. We have demonstrated that rapid hyperspectral imaging based on IR and coherent Raman can unravel the complex structure of polymers, including 3D orientation angles
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Description Combining organic monolayers with semiconductor surfaces is of interest for many differing applications including molecular electronics, sensors, and bio-electronics. Monolayers on semiconductor
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critical to a variety of soft material applications ranging from sustainability to impact mitigation. The polymer chemistry and structure of these entangled materials are essential to defining
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application. This research focuses on developing and characterizing how directed energy deposition methods can be combined with other energy sources to control the solidification and precipitation behavior in
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nonlinear optical devices based on dispersion engineered waveguides in a variety of materials including silicon, silicon nitride, and AlGaAs. A major thrust for these devices is to enable chip-scale frequency
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of additive manufacturing devices including consumer grade 3D printers; and 3) metrology development for characterizing mixed-phase nanomaterial samples using spectroscopy and microscopy methods. key words
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resolution of the original pattern. Lamellae forming block copolymers can reduce the size of line patterns, while cylinder forming block copolymers can be used for fabrication of bit-patterned media for next
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301.975.2362 Description Microcalorimeters operating at very low temperatures comprise a new class of x-ray detectors which cover a wide energy range with high resolution. The detectors are calorimeters cooled
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into therapeutic applications is design principles for predictably and reproducibly culturing cells and efficiently differentiating them into cell types of interest. Typical culture conditions today result in