Abstract: A system and method for providing content for a point of interest are provided. One or more two-dimensional content items are provided for display on a user interface of an electronic device, where each of the one or more two-dimensional content items represents a corresponding point of interest. A user selection of one of the one or more two-dimensional content items is received. A three-dimensional content item corresponding to a point of interest that is represented by the selected two-dimensional content item is provided in response to receiving the user selection of the one of the one or more two-dimensional content items.

Abstract: A method of manufacturing a biopolymer sensor including providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, adding a biological material in the biopolymer matrix, providing a substrate, casting the matrix solution on the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer sensor on the substrate. A biopolymer sensor is also provided that includes a solidified biopolymer film with an embedded biological material.

Abstract: Pathogen and chemical detection systems for use with a patient support apparatus and related methods are disclosed. A fluid or biologic sample from the vicinity of a person supported by a person support apparatus is acquired and transmitted to a pathogen detection sensor. A graphical caregiver interface is supplied output from the pathogen detection sensor and detects the presence of a chemical. The graphical caregiver interface communicates with an electronic medical records database, and alarm and a nurse call system.

Abstract: A method of manufacturing a biopolymer optical device includes providing a polymer, providing a substrate, casting the polymer on the substrate, and enzymatically polymerizing an organic compound to generate a conducting polymer between the provided polymer and the substrate. The polymer may be a biopolymer such as silk and may be modified using organic compounds such as tyrosines to provide a molecular-level interface between the provided bulk biopolymer of the biopolymer optical device and a substrate or other conducting layer via a tyrosine-enzyme polymerization. The enzymatically polymerizing may include catalyzing the organic compound with peroxidase enzyme reactions. The result is a carbon-carbon conjugated backbone that provides polymeric “wires” for use in polymer and biopolymer optical devices. An all organic biopolymer electroactive material is thereby provided that provides optical functions and features.

Abstract: A method of manufacturing a biopolymer sensor including providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, adding a biological material in the biopolymer matrix, providing a substrate, casting the matrix solution on the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer sensor on the substrate. A biopolymer sensor is also provided that includes a solidified biopolymer film with an embedded biological material.

Abstract: A wafer support ring and a method of using the same are disclosed herein. The support ring supports a wafer during a first processing operation. A top surface of the support ring is in contact with a first plurality of locations on a surface of the wafer during the first processing operation. A second wafer support structure is used to support the wafer during a second processing operation. A top surface of the second wafer support structure is in contact with a second, different plurality of locations on the surface of the wafer during the second processing operation. The wafer support ring may also have an outer lip disposed about an outer periphery of the support ring that has a depth such that it does not form part of the top surface of the support ring.

Abstract: A wafer boat for a semiconductor wafer includes vertical rods, fingers supported by the vertical rods, and plates supported by the fingers. The plate has a support surface for supporting the wafer and a recessed surface spaced from the support surface and spaced from the wafer. A plurality of holes extends from the recessed surface, and the support surface is free of holes to inhibit contamination of the wafer.

Abstract: A support for a semiconductor wafer includes a plate having a support surface for supporting the wafer and a recessed surface spaced from the support surface and spaced from the wafer. A plurality of holes extends from the recessed surface, and the support surface is free of holes to inhibit contamination of the wafer.

Abstract: An apparatus includes a base member, a first leg member pivotably engaged to the base member, a second leg member pivotably engaged to the base member, a third leg member pivotably engaged to the base member, the third leg member including a linkage portion, and a retaining member engaged to the linkage portion.

Abstract: A method of manufacturing a biopolymer optical waveguide includes providing a biopolymer, unwinding the biopolymer progressively to extract individual biopolymer fibers, and putting the unwound fibers under tension. The tensioned fibers are then cast in a different polymer to form a biopolymer optical waveguide that guides light due to the difference in indices of refraction between the biopolymer and the different polymer. The optical fibers may be used in biomedical applications and can be inserted in the body as transmissive media. Printing techniques may be used to manufacture the biopolymer optical waveguides.

Abstract: A method of manufacturing a nanopatterned biophotonic structure includes forming a customized nanopattern mask on a substrate using E-beam lithography, providing a biopolymer matrix solution, depositing the biopolymer matrix solution on the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer film. A surface of the film is formed with the nanopattern mask, or a nanopattern is machined directly on a surface of the film using E-beam lithograpy such that the biopolymer film exhibits a spectral signature corresponding to the E-beam lithograpy nanopattern. The resulting bio-compatible nanopatterned biophotonic structures may be made from silk, may be biodegradable, and may be bio-sensing devices. The biophotonic structures may employ nanopatterned masks based on non-periodic photonic lattices, and the biophotonic structures may be designed with specific spectral signatures for use in probing biological substances, including displaying optical activity in the form of opalescence.

Abstract: An internal combustion engine crankcase lubricating oil composition is disclosed. The crankcase lubricating oil composition has a TBN no greater than 6 and contains the following additives: (B1) a metal detergent system having a metal ratio no greater than 3, as the sole detergent system; (B2) an organic ashless friction modifier; (B3) an oil-soluble molybdenum friction modifier; and (B4) a metal dihydrocarbyl dithiophosphate.

Abstract: A process is disclosed for annealing a single crystal silicon wafer having a front surface and a back surface, and an oxide layer disposed on the front surface of the wafer extending over substantially all of the radial width. The process includes annealing the wafer in an annealing chamber having an atmosphere comprising oxygen. The process also includes maintaining a partial pressure of water above a predetermined value such that the wafer maintains the oxide layer through the annealing process. The annealed front surface is substantially free of boron and phosphorus.

Abstract: A support for a semiconductor wafer includes a plate having a support surface for supporting the wafer and a recessed surface spaced from the support surface and spaced from the wafer. A plurality of holes extends from the recessed surface, and the support surface is free of holes to inhibit contamination of the wafer.

Abstract: A wafer boat for a semiconductor wafer includes vertical rods, fingers supported by the vertical rods, and plates supported by the fingers. The plate has a support surface for supporting the wafer and a recessed surface spaced from the support surface and spaced from the wafer. A plurality of holes extends from the recessed surface, and the support surface is free of holes to inhibit contamination of the wafer.

Abstract: A wafer support ring and a method of using the same are disclosed herein. The support ring supports a wafer during a first processing operation. A top surface of the support ring is in contact with a first plurality of locations on a surface of the wafer during the first processing operation. A second wafer support structure is used to support the wafer during a second processing operation. A top surface of the second wafer support structure is in contact with a second, different plurality of locations on the surface of the wafer during the second processing operation. The wafer support ring may also have an outer lip disposed about an outer periphery of the support ring that has a depth such that it does not form part of the top surface of the support ring.

Abstract: A support for a semiconductor wafer includes a plate having a support surface for supporting the wafer and a recessed surface spaced from the support surface and spaced from the wafer. A plurality of holes extends from the recessed surface, and the support surface is free of holes to inhibit contamination of the wafer.

Abstract: The present invention relates to moisture curable reactive adhesive compositions containing a visual indicator and methods for using these compositions. Specifically, the invention relates to a two part moisture curable reactive adhesive system, where one part consists of a prepolymer with moisture reactive groups and the second part consists of catalyst, a visual indicator and water. The presence of the indicator allows the combination of the two part system to be visible to the naked eye. The visible indicator ensures that the two part system is combined uniformly and completely to a desired substrate, but it does not interfere with the crosslinking reaction.

Abstract: A fun, durable, fashion forward tote bag, which allows people to change the middle insert around to fit their daily life routines weather they are right or left handed and keeps the mind thought of being organized at the same time, and be able to interchange colors with the insert and outer shells from the different themes. And most of all, have a comfortable fit to the whole bag.

Abstract: Processes for the purification of silicon carbide structures, including silicon carbide coated silicon carbide structures, are disclosed. The processes described can reduce the amount of iron contamination in a silicon carbide structure by 100 to 1000 times. After purification, the silicon carbide structures are suitable for use in high temperature silicon wafer processing.