Abstract: An outer platform leading edge cooling system includes a radially outer platform having a platform leading edge; a hollow cooling channel is defined extending generally longitudinally along the platform leading edge of the radially outer platform; an inlet port located in a radially outer end region of the platform leading edge being fluidly coupled with the hollow cooling channel; and the hollow cooling channel comprising an outlet conduit extending from a cooling channel exit, the outlet conduit being connected in fluid flow communication with a trailing edge cavity.

Abstract: An input device for use with an information handling system is disclosed. The input device may include a display device having a viewing area defined by a perimeter, a graphic user interface configured to display a virtual button within the viewing area adjacent the perimeter, a frame adjacent the perimeter of the viewing area, and a proximity sensing element associated with the frame and located outside the viewing area of the display device. The proximity sensing element may be configured to sense a user selecting the virtual button displayed by the graphic user interface.

Abstract: Better patterning methods, including for better methods for forming biomolecular arrays, including a method comprising: providing a tip and a substrate surface, disposing a patterning composition at the end of the tip, depositing at least some of the patterning composition from the tip to the substrate surface to form a deposit disposed on the substrate surface, wherein the patterning composition comprises at least one lipid, optionally at least one solvent, and at least one patterning species different from the lipid and the optional solvent. The lipid can be a phospholipid such as DOPC. The patterning species can be an oligonucleotide or a protein. Microarrays and nanoarrays can be prepared including nanoscale resolution of deposits. The lipid can activate patterning or increase the rate of patterning. Simplified tip preparation can be achieved. Nanoscopic, SPM, and AFM tips can be used.

Abstract: The invention generally pertains to enhancing a sensory perception of media. More particularly, the invention pertains to creating a composition having at least one frequency in the ultrasonic or infrasonic range. By way of example, the composition is inaudible in its preferred embodiment, but audible components are contemplated. One aspect of the invention relates to selecting a root frequency and then, via a mathematical operation or algorithm, calculating a single component frequency or a plurality of frequencies that lie in the infrasonic or ultrasonic range. Typically, infrasonic and ultrasonic frequencies lie outside the range of hearing for the average human being. The ultrasonic or infrasonic component frequency is not heard, yet its presence and its tonal characteristics may enhance a perception of the sensory content of a media conveyed through a media device.

Abstract: The present invention relates to methods for detecting for the presence of one or more target analytes, e.g. biomolecules, in a sample. In particular, the present invention relates to a method that utilizes blocking strands to inhibit target rehybridization to detect double stranded genomic DNA.

Abstract: An input system for use with an information handling system is disclosed. The input system may include a display device having a viewing area defined by a perimeter, a graphic user interface configured to display an input option within the viewing area adjacent the perimeter, a frame adjacent the perimeter of the viewing area, and a proximity sensing element associated with the frame and located outside the viewing area of the display device. The proximity sensing element may be configured to sense a user selecting the input option indicated by the graphic user interface.

Abstract: A method for immobilizing unmodified material using a metal-ion approach is provided wherein the material is immobilized on a surface in an active state on surface features coupled with metal-ions.

Abstract: The invention generally pertains to enhancing a sensory perception of media. More particularly, the invention pertains to creating a composition having at least one frequency in the ultrasonic or infrasonic range. By way of example, the composition is inaudible in its preferred embodiment, but audible components are contemplated. One aspect of the invention relates to selecting a root frequency and then, via a mathematical operation or algorithm, calculating a single component frequency or a plurality of frequencies that lie in the infrasonic or ultrasonic range. Typically, infrasonic and ultrasonic frequencies lie outside the range of hearing for the average human being. The ultrasonic or infrasonic component frequency is not heard, yet its presence and its tonal characteristics may enhance a perception of the sensory content of a media conveyed through a media device.

Abstract: A nanoarray template utilizing coordination chemistry or metal ion binding to control the site-isolation and orientation of virus particles is provided. The nanoarray template is generated by lithography including Dip Pen Nanolithography. The surface chemistry that is inherent in many viruses, metal-ion based or inorganic coordination chemistry is used to immobilize individual virus particles without the need for their genetic modification. Single particle control enables a wide variety of studies involving viruses that are not possible with microarrays, including single particle, single cell infectivity studies, exploration of such structures as templates in materials synthesis and molecular electronics, and studies aimed at understanding how surface presentation influences their bioactivity. This is an example of such control at the single-particle level, and therefore, commercial use of nanoarrays in biological systems.

Abstract: Better patterning methods, including for better methods for forming biomolecular arrays, including a method comprising: providing a tip and a substrate surface, disposing a patterning composition at the end of the tip, depositing at least some of the patterning composition from the tip to the substrate surface to form a deposit disposed on the substrate surface, wherein the patterning composition comprises at least one lipid, optionally at least one solvent, and at least one patterning species different from the lipid and the optional solvent. The lipid can be a phospholipid such as DOPC. The patterning species can be an oligonucleotide or a protein. Microarrays and nanoarrays can be prepared including nanoscale resolution of deposits. The lipid can activate patterning or increase the rate of patterning. Simplified tip preparation can be achieved. Nanoscopic, SPM, and AFM tips can be used.

Abstract: A novel coordination chemistry or metal ion binding approach to controlling the site-isolation and orientation of virus particles, such as TMV, on a nanoarray template generated by lithography including Dip Pen Nanolithography. By using the surface chemistry that is inherent in many viruses, metal-ion based or inorganic coordination chemistry was used to immobilize individual virus particles without the need for their genetic modification. Single particle control will enable a wide variety of studies involving viruses that are not possible with microarrays because of the size mismatch between the architecture of the virus and the features that make up such arrays. These include: single particle, single cell infectivity studies, the exploration of such structures as templates in materials synthesis and molecular electronics, and studies aimed at understanding how surface presentation can influence their bioactivity.