Abstract: In one embodiment, a radio-frequency identification device for use in a wellbore includes a housing made of a polymer; and an antenna disposed in the housing. The polymer may be selected from the group consisting of an elastomer, a plastic, a rubber, a thermoplastic elastomer, and combinations thereof. The RFID device may also include a fill material disposed in the housing.

Abstract: The present invention is related to systems and methods for chemical and biological analysis and, in particular, to systems, apparatus, and methods of sample conditioning and analysis.

Abstract: An optical film comprising a substrate having front and rear surfaces, and at least one solid optical retardation layer on the front surface of the substrate, wherein the solid optical retardation layer comprises organic rigid rod-like macromolecules based on 2,2?-disulfo-4,4?-benzidine terephthalamide or its salt of the general structural formula I. The solid optical retardation layer is an uniaxial positive A-type layer and is substantially transparent to electromagnetic radiation in the visible spectral range.

Abstract: The present invention relates generally to optical retardation films. The invention may be used as optical element in liquid crystal display (LCD) devices, particularly as phase-shifting component of LCDs of both reflection and transmission type, and in ant other field of science and technology where optical retardation films are applied such as architecture, automobile industry, decoration arts. The present invention provides an optical film comprising a substrate having front and rear surfaces, and at least one solid optical retardation layer on the front surface of the substrate. The solid optical retardation layer comprises organic rigid rod-like macromolecules based on 2,2?-disulfo-4,4?-benzidine terephthalamide-isophthalamide copolymer or its salt of the general structural formula I. The solid optical retardation layer is a negative C-type or Ac-type plate substantially transparent to electromagnetic radiation in the visible spectral range.

Abstract: A device and method to provide a simplified wash process and controlled disintegration of a soft substance, such as a gel, are disclosed. In use, a block of, e.g., gel matrix is placed in the device and washed with a series of appropriate solutions to remove interfering contaminants. The washing liquid is removed through a deformable narrow opening in the bottom of the device, and, subsequently, the gel block is extruded through the deformable narrow opening, by a physical force, such as centrifugal force, a vacuum or positive pressure from a gas or liquid, etc., resulting in fragmentation of the gel block into a series of particles of similar size. The fragmentation of the gel results from shear forces exerted onto the gel block traveling through the deformable narrow opening in the device.

Abstract: Described herein is a sample preparation device including a sample delivery source, an inline means of transferring the sample from the sample source into a deformable channel within a pressure vessel, and out of the channel into downstream analysis components, a deformable channel disposed within the pressure vessel, the deformable channel having an inlet end and an outlet end fluidly connectable to high pressure valves and a means to measure the fluid pressure within the deformable channel, an external source of a controlled pressurized fluid fluidly connectable to the pressure vessel and a controller system that monitors and controls the sample fluid pressure by control of the external pressure vessel fluid.

Abstract: A pressurizable sample system includes a microplate having a planar plate surface and several sample wells. Each sample well has a flange positioned circumferentially around an outer surface of the sample well and against the planar plate surface. The sample system further includes a capping plate with a planar cap surface and several caps projecting from the planar cap surface. Each cap has a geometrical configuration in complementary correspondence with the configuration of the sample well.

Abstract: A wireless transceiver for transmitting data across a pipe joint is described herein. At least some illustrative embodiments include a wireless communication apparatus including a housing configured to be positioned inside/proximate of/to an end of a drill pipe. The housing includes an antenna with at least one RF signal propagation path parallel to the axis of the housing, and an RF module (coupled to the antenna) configured to couple to a communication cable, and to provide at least part of a data retransmission function between an antenna signal and a communication cable signal. A material (transparent to RF signals within the RF module's operating range) is positioned along the circumference, and at/near an axial end, of the housing closest to the antenna. At least some RF signals, axially propagated between the antenna and a region near said axial end, traverse the radiotransparent material along the propagation path.

Abstract: Sample processing devices having collapsible, flexible bodies are disclosed. The flexible microtube sampling devices are utilizable in pressure mediated, pressure cycling procedures. Externally applied pressure on the flexible microtube sample processing devices allow buckling thereof and transfer of the applied pressure to the sample contained therein.

Abstract: A wireless transceiver for transmitting data across a pipe joint is described herein. At least some illustrative embodiments include a wireless communication apparatus including a housing configured to be positioned inside/proximate of/to an end of a drill pipe. The housing includes an antenna with at least one RF signal propagation path parallel to the axis of the housing, and an RF module (coupled to the antenna) configured to couple to a communication cable, and to provide at least part of a data retransmission function between an antenna signal and a communication cable signal. A material (transparent to RF signals within the RF module's operating range) is positioned along the circumference, and at/near an axial end, of the housing closest to the antenna. At least some RF signals, axially propagated between the antenna and a region near said axial end, traverse the radiotransparent material along the propagation path.

Abstract: The systems and techniques of the present invention can also synergistically utilize mechanical disruption processes with the use of high hydrostatic pressure extraction, such as pressure cycling extraction techniques to achieve high yield of difficult to extract sample constituents without generating high shear stress or high temperatures.

Abstract: Extraction methods that allow a molecular complex (e.g., an organelle) to be extracted from a sample by employing pressure cycling are described.

Abstract: A device and method to provide a simplified wash process and controlled disintegration of a soft substance, such as a gel, are disclosed. In use, a block of, e.g., gel matrix is placed in the device and washed with a series of appropriate solutions to remove interfering contaminants. The washing liquid is removed through a deformable narrow opening in the bottom of the device, and, subsequently, the gel block is extruded through the deformable narrow opening, by a physical force, such as centrifugal force, a vacuum or positive pressure from a gas or liquid, etc., resulting in fragmentation of the gel block into a series of particles of similar size. The fragmentation of the gel results from shear forces exerted onto the gel block traveling through the deformable narrow opening in the device.

Abstract: Methods of extracting a component of interest from a plurality of components are described.