Abstract: Systems and methods for managing and operating a water supply system in accordance with embodiments on the invention are described. In an embodiment, the system calculates a set of one or more marginal values for a water supply system by: determining a set of transmission marginal values for a transmission stage, determining a set of treatment marginal values for a treatment stage, and determining a set of distribution marginal values for a distribution stage for a set of consumers, where the determining includes backtracking consumed water to a set of one or more raw water sources, identifying a set of one or more marginal paths of water supply from each raw water source to the consumer, and quantifying the intensity of inputs associated with the marginal paths.

Abstract: The disclosure describes a method of forming highly ordered membrane protein crystals. The forming process is done in the presence of a magnetic field to exploit the diamagnetic anisotropy of the membrane protein. Further described is a method of magnetic alignment and crystallization of membrane proteins in two-dimensional (2D) sheets for protein structural characterization and applications in functional devices. Block co-copolymers are used in alternative embodiments to assist with the crystallization process.

Abstract: The disclosure describes a method of forming highly ordered membrane protein crystals. The forming process is done in the presence of a magnetic field to exploit the diamagnetic anisotropy of the membrane protein. Further described is a method of magnetic alignment and crystallization of membrane proteins in two-dimensional (2D) sheets for protein structural characterization and applications in functional devices. Block co-copolymers are used in alternative embodiments to assist with the crystallization process.

Abstract: The present invention relates to the development and fabrication of thin-film polymer nanocomposites containing vertically aligned nanomaterials, such as single-walled carbon nanotubes (SWNTs). In certain embodiments, the present invention utilizes liquid crystal mesophases of hexagonally packed cylindrical micelles that orient with their long axes parallel to an applied magnetic field, thereby directing the alignment of the nanomaterials, such as SWNTs, sequestered in the micellar cores. In certain embodiments, the mesophase may be a stable, single-phase material containing monomers that can be polymerized after nanotube alignment to form the nanocomposite polymer.

Abstract: The present invention relates to the development and fabrication of thin-film polymer nanocomposites containing vertically aligned nanomaterials, such as single-walled carbon nanotubes (SWNTs). In certain embodiments, the present invention utilizes liquid crystal mesophases of hexagonally packed cylindrical micelles that orient with their long axes parallel to an applied magnetic field, thereby directing the alignment of the nanomaterials, such as SWNTs, sequestered in the micellar cores. In certain embodiments, the mesophase may be a stable, single-phase material containing monomers that can be polymerized after nanotube alignment to form the nanocomposite polymer.