Abstract: A transition metal nitride is obtained by a nitriding treatment of a surface of a base material including a transition metal or an alloy of the transition metal, and the transition metal nitride has a crystal structure of an M4N type and a crystal structure of an ?-M2˜3N type, and is formed over a whole area of the surface of the base material and continuously in a depth direction from the surface.

Abstract: A fuel cell installation includes a support structure and a cell stack assembly that is removably insertable into the support structure from an uninstalled position to an installed position during an installation procedure. The cell stack assembly includes a fitting. An interfacing structure is mounted on one of the support structure in the cell stack assembly. The interfacing structure carries a connector that is configured to receive the fitting in interconnected relationship. At least one of the fitting and the connector floats in a plane relative to the support structure during the installation procedure. In operation, the fitting engages the connector when the cell stack assembly is inserted into the support structure. The fitting is repositioned relative to the connector to ensure that the fitting and connector are aligned with one another and connected upon installation.

Abstract: Provided is a method of manufacturing a membrane electrode assembly including catalyst layers in both sides of a polymer electrolyte membrane, substance diffusion of the catalyst layer being improved, in which forming at least one of the catalyst layers includes at least: forming a first layer including one of a catalyst and a catalyst precursor on a surface of a sheet by vapor-phase deposition; forming a through hole in the first layer; forming a second layer including one of a catalyst and a catalyst precursor on a surface of the first layer having the through hole by vapor-phase deposition; joining a polymer electrolyte membrane to a surface of the second layer; and peeling off the sheet from the first layer.

Abstract: The present invention relates a method for manufacturing a fuel cell. An object of the present invention is to provide a method for manufacturing a membrane electrode assembly capable of solving an electrical connection problem caused by uneven tube lengths and improving an output, and a solid polymer electrolyte fuel cell. The method for manufacturing the membrane electrode assembly of the present invention includes a seed catalyst layer forming process (1), a CNT growing process (2), a CNT entanglement promoting process (3), a catalyst carrying process (4), an ionomer arranging process (5), and a transferring (MEA conversion) process (6). According to the present invention, entanglement of adjacent CNTs can be promoted by the CNT entanglement promoting process (3) and therefore the electrical connection of the CNTs can be ensured. Thus, the output of the cell can be improved.

Abstract: An object of the present invention is to provide a fuel cell preventing formation of a diffusion layer containing Ca and other elements, and having an excellent power generation performance at low temperature by preventing breakdown of a crystal structure of an electrolyte by firing. Disclosed is a solid oxide fuel cell which includes an inner electrode, a solid electrolyte, and an outer electrode, each sequentially laminated on the surface of a porous support. The porous support contains forsterite, and has a Ca element content of 0.2 mass % or less in terms of CaO in a surface region at the inner electrode side.

Abstract: The present invention features a fuel cell stack that preferably includes an electricity generating assembly having a plurality of unit cells that are suitably disposed one after another; a pair of end plates pressedly disposed respectively at upper and lower ends of the electricity generating assembly; and a joining device suitably engaging the end plates by a rope, where pressure is applied to the electricity generating assembly by means of tension of the rope, and the length and tension of the rope is suitably controlled.

Abstract: A fuel cell electrode layer may include a catalyst, an electronic conductor, and an ionic conductor. Within the electrode layer are a plurality of electronic conductor rich networks and a plurality of ionic conductor rich networks that are interspersed with the electronic conductor rich networks. A volume ratio of the ionic conductor to the electronic conductor is greater in the ionic conductor rich networks than in the electronic conductor rich networks. During operation of a fuel cell that includes the electrode layer, conduction of electrons occurs predominantly within the electronic conductor rich networks and conduction of ions occurs predominantly within the ionic conductor rich networks.

Abstract: An exposure mask used to transfer a pattern defined by exposure onto a wafer, includes: a substrate; a pattern formation region provided on the substrate, and having pattern elements formed therein, the pattern elements having a size not smaller than a resolution limit after being transferred onto the wafer; and a sub-pattern formation region provided on the substrate and having sub-pattern elements formed therein. The sub-pattern element has a size smaller than the resolution limit after being transferred onto the wafer, and the sub-pattern formation region is spaced from the pattern formation region by a distance having no optical proximity effect on the pattern.

Abstract: The present disclosure provides a photomask. The photomask includes a first integrated circuit (IC) feature formed on a substrate; and a second IC feature formed on the substrate and configured proximate to the first IC feature. The first and second IC features define a dense pattern having a first pattern density. The second IC feature is further extended from the dense pattern, forming an isolated pattern having a second pattern density less than the first pattern density. A transition region is defined from the dense pattern to the isolated pattern. The photomask further includes a sub-resolution rod (SRR) formed on the substrate, disposed in the transition region, and connected with the first IC feature.

Abstract: A mask and method of fabricating same are disclosed. In an example, a mask includes a substrate, a reflective multilayer coating disposed over the substrate, an Ag2O absorber layer disposed over the reflective multilayer coating, and a tantalum-containing absorber layer disposed over the Ag2O absorber layer. The tantalum-containing absorber layer is disposed over the Ag2O absorber layer outside a mask image region of the mask, such that the mask image region of the mask is free of the tantalum-containing absorber layer. In an example, the tantalum-containing absorber layer is disposed over the Ag2O absorber layer adjacent to the mask image region.

Abstract: Extreme ultraviolet lithography (EUVL) masks and methods of manufacturing are provided. A method includes forming a sub-resolution phase shift grating in a multilayer reflective film beneath a border region of an absorber layer of an extreme ultraviolet lithography (EUVL) mask. The sub-resolution phase shift grating reduces a reflectivity of the border region of the mask.

Abstract: The invention provides a green curable composition including a colorant in an amount of 47.5% by mass or more with respect to the total solid content of the green curable composition, the colorant containing a halogenated copper phthalocyanine pigment and a barbituric acid derivative yellow pigment at a ratio of from 6/4 to 3/7 (halogenated copper phthalocyanine pigment/barbituric acid derivative yellow pigment); a colored pattern formed from the green curable composition; a color filter including the colored pattern; a solid-state image sensor including the color filter; and a method of producing the color filter.

Abstract: A method for manufacturing a color filter array having hybrid color filters includes providing a high-grade photoresist and a low-grade photoresist, forming a plurality of first color filters on a substrate, and forming a plurality of second color filters and a plurality of third color filters on the substrate. The first color filters include the high-grade photoresist, and the second color filters and the third color filters include the low-grade photoresist. The high-grade photoresist of the first color filters includes a first amount of large size pigments in one unit area and the low-grade photoresists of the second color filters and the third color filters include a second amount of large size pigments in one unit area. A ratio of the second amount to the first amount is equal to or larger than 1.

Abstract: Embodiments pertain to a novel imaging member, namely, an imaging member or photoreceptor comprising a protective outer layer which comprises light-absorbing composition that substantially prevents any light absorption by the overcoat layer. The composition comprises a low strength thermal plastic resin and a high optical density yellow dye. Thus, the light-blocking protective layer reduces the intrinsic light shock suffered by conventional overcoat layers without negatively impacting electrical properties of the overcoat layer and while improving print quality.

Abstract: The electrophotographic photosensitive member includes a surface layer containing (?), (?) and (?).

Abstract: An electrophotographic photoreceptor and a manufacturing method therefore are disclosed. The electrophotographic photoreceptor includes a conductive base; and a photosensitive layer provided on the conductive base and containing a diadamantyl diester compound represented by General Formula (I) below: where, R1, R2 and R3 each independently represent a hydrogen atom, halogen atom, optionally substituted C1-6 alkyl group, optionally substituted C1-6 alkoxyl group, C6-20 aryl group or heterocyclic group, X and Z represent single bonds or optionally substituted C1-6 alkylene groups, and Y represents an OCO group or COO group. The electrophotographic photoreceptor has sufficient wear resistance and satisfactory properties as a photoreceptor, while being little affected by harmful gasses and environmental temperature and humidity.

Abstract: The present invention is to provide a multilayer type electrophotographic photoconductor capable of stably obtaining a high image quality image over a long term by restraining the exposure memory and the photo memory, and an image forming apparatus comprising such a multilayer type electrophotographic photoconductor. A multilayer type electrophotographic photoconductor comprising a charge generating layer containing at least a charge generating agent on a base member directly or via an intermediate layer, and a charge transporting layer containing at least a charge transporting agent and a binder resin formed successively, wherein the light absorption degree at a 680 nm wavelength light beam in the photoconductive layer of the multilayer type electrophotographic photoconductor is of a value of 0.8 or less, and the light absorption degree at a 450 nm wavelength light beam is of a value of 1.

Abstract: A photoconductor and method of forming a photoconductor comprising forming a charge generation material comprising a plurality of quantum dots, and forming an active region comprising one or more photoconductor layers comprising the charge generation material including the quantum dots is disclosed.

Abstract: The presently disclosed embodiments relate generally to layers that are useful in imaging apparatus members and components, for use in electrophotographic, including digital printing, apparatuses. More particularly, the embodiments pertain to an improved electrophotographic imaging member comprising a charge transport layer comprising a novel combination of a tetraaryl polycarbonate copolymer binder and perfluorinated fillers. The present charge transport layer provides reduced wear rate and long service life.

Abstract: A imaging member, such as a photoreceptor, having an outermost layer that is a structured organic film (SOF) comprising a plurality of segments and a plurality of linkers including a first fluorinated segment, a second electroactive segment and fluorinated secondary components.

Abstract: An electrophotographic photoreceptor includes a conductive substrate, a photosensitive layer that is provided on the conductive substrate, and a surface layer that is provided on the photosensitive layer or is contained in the photosensitive layer, wherein the surface layer is formed of a cured film of a composition including a first reactive charge transport material having a hydroxyl group and a second reactive charge transport material having a methoxy group, and has an elastic deformation ratio R satisfying the following Expression (1): 0.40?R?0.51.

Abstract: A photoconductor containing an optional anticurl layer, a supporting substrate, an optional ground plane layer, an optional hole blocking layer, an optional adhesive layer, a photogenerating layer, a charge transport layer, and an overcoat layer mixture of a charge transport compound, a melamine resin, an optional acid catalyst, and a fluoro component.

Abstract: An electrostatic latent image developing toner contains a binder resin, a colorant, europium, and bismuth.

Abstract: An electrophotographic toner and a method of preparing the same, the electrophotographic toner including a binder that includes two kinds of resin having different weight average molecular weights, a colorant, and a releasing agent.

Abstract: Disclosed is a polyester resin containing the polycondensation product of (a) at least one diacid, acid ester, or diester, and (b) at least two diols. The at least two diols include a disproportionated rosin diol and 2,2-bis(4-hydroxyphenyl)propane. Also disclosed is a toner composition having particles which include the disclosed polyester resin. Further disclosed is a method of preparing the disclosed polyester resin, and a method of forming toner particles that includes the disclosed polyester resin.

Abstract: A magnetic single-component developer includes a spherical toner containing at least a magnetic powder and not containing a release agent in a binder resin, and a nonspherical toner containing at least a magnetic powder and a release agent in a binder resin. According to measurements taken from a scanning electron microscope image taken from 100 toner particles in the magnetic single-component developer, the spherical toner has a circularity of 0.980 or more, the nonspherical toner has a circularity of 0.960 or less, and a particle number ratio (A)/(B) of the number (A) of particles of the spherical toner to the number (B) of particles of the nonspherical toner is 3/7 or more and 5/5 or less.

Abstract: A two-component developing agent includes toner and a carrier including carrier particles. The toner includes a binding resin. The carrier particle includes a porous ferrite core particle and a resin covering layer. The resin covering layer covers the porous ferrite core particle. The resin covering layer includes ferrite particles. An average particle diameter of the ferrite particles ranges from 0.1 to 1.0 ?m.

Abstract: A liquid toner is disclosed herein. The liquid toner includes a toner composition with latex particles incorporated therein. The toner composition includes charged toner particles incorporated into a non-polar liquid carrier. The latex particles are polymer particles of acrylic monomers, vinylic monomers, or mixtures thereof, and each latex particle has a particle size ranging from about 20 nm to about 5 ?m.

Abstract: A method of manufacturing toner is provided. In the method, toner constituents are dissolved or dispersed in an organic solvent to prepare a toner constituents liquid. The toner constituents liquid is degassed so that the toner constituents liquid includes dissolved oxygen in an amount of 3 mg/L or less. The toner constituents liquid is vibrated in a chamber having at least one nozzle to form a liquid column resonance standing wave in the toner constituents liquid. The toner constituents liquid is discharged from the nozzle disposed within an area including an antinode of the liquid column resonance standing wave to form the toner constituents liquid into liquid droplets. The liquid droplets are dried to solidify the liquid droplets into solid particles.

Abstract: A method of manufacturing toner carrier formed of a core and a cover thereon, including the steps of: coating the core with a liquid cover containing a solvent and a material for forming the cover on the core in a processing tank; heating the core and the cover by first microwave radiation to volatilize the solvent from the cover; and removing the solvent volatilized in the step of heating from the processing tank.

Abstract: A salt represented by the formula (X): wherein Q1 and Q2 each independently represent a fluorine atom or a C1-C6 perfluoroalkyl group, L1 represents a C1-C17 divalent saturated hydrocarbon group in which one or more —CH2— can be replaced by —O— or —CO—, ring W1 represents a C4-C36 lactone ring, R3 is a C1-C6 alkyl group etc., t represents an integer of 0 to 2, Z+ represents an organic counter ion, and W10 represents a group represented by the formula (X-1): wherein L2 represents a single bond etc., ring W2 represents a C3-C36 saturated hydrocarbon ring in which one —CH2— is replaced by —CO— and in which one or more —CH2— can be replaced by —O— or —CO—, R1 represents a C1-C12 hydrocarbon group, R2 is a C1-C6 alkyl group etc.

Abstract: A positive resist composition including a base component (A) which exhibits changed solubility in an alkali developing solution under the action of acid and an acid-generator component (B) which generates acid upon exposure, wherein the acid-generator component (B) includes an acid generator (B1) containing a compound represented by general formula (b1-1) shown below (wherein Z+ represents an organic cation).

Abstract: A resist composition includes: a crosslinking material that is crosslinked in the presence of an acid; an acid amplifier; and a solvent.

Abstract: A resist composition for negative development including a base component (A) which exhibits decreased solubility in an organic solvent under the action of acid and an acid generator component (B) which generates acid upon exposure; and the resist composition used in a method of forming a resist pattern which includes: forming a resist film on a substrate using the resist composition; conducting exposure of the resist film; and patterning the resist film by negative development using a developing solution containing the organic solvent to form a resist pattern, wherein the acid generator component (B) contains an acid generator (B1) that generates an acid having a log P value of 2.7 or less and also a pKa value of at least ?3.5.

Abstract: A radiation sensitive resin composition includes a first polymer having a group represented by a following formula (1), and a radiation sensitive acid generator. n is an integer of 2 to 4. X represents a single bond or a bivalent organic group. A represents a (n+1) valent linking group. Each Q independently represents a group that includes an alkali-dissociable group.

Abstract: A molecular glass compound includes (A) a tetrameric reaction product of a specific aromatic compound having at least one hydroxy group, and a specific polycyclic or fused polycyclic aromatic aldehyde; and (B) an acid-removable protecting group as an adduct with the hydroxy group of the aromatic compound and/or a hydroxy group of the polycyclic or fused polycyclic aromatic aldehyde. A photoresist composition including the molecular glass compound, and a coated substrate including a layer of the photoresist composition are also disclosed.

Abstract: The present invention provides a resin comprising a structural unit derived from a compound represented by the formula (I): wherein R1 represents a hydrogen atom or a methyl group, A2 represents a divalent fluorine-containing C1-C12 hydrocarbon group, and A1 represents a group represented by the formula (a-g1): A10-X10sA11-??(a-g1) wherein A10 is independently in each occurrence a C1-C5 aliphatic hydrocarbon group, A11 represents a C1-C5 aliphatic hydrocarbon group, X10 is independently in each occurrence —O—, —CO—, —CO—O— or —O—CO—, and s represents an integer of 0 to 2, and a photoresist composition comprising the resin and an acid generator.

Abstract: A water-soluble resin composition for forming fine patterns comprising water-soluble polymer represented by Chemical Formula 1 as below and the first water-soluble solvent, is coated and heated on a photoresist layer having at least one contact hole to reduce a size of the at least one contact hole. (In Chemical Formula 1, each of R1, R2, R3 and R5 independently represents an alkyl group of C1-30 or an cyclo alkyl group of C3-30 which respectively have one selected from the group consisting of hydrogen, an ether group, an ester group, a carbonyl group, an acetal, an epoxy group, a nitril group, an amine group, and an aldehyde group; each of R4, R6, R7 and R8 independently represents hydrogen or a methyl group; n represents an integer of 0 to 5; a represents a real number of 0.05 to 0.5; each of b, c and d respectively represents a real number of 0 to 0.7; and a+b+c+d=1).

Abstract: Methods of preparing organosilane-functionalized regions on a substrate surface and more specifically fabricating patterned functionalized substrates suitable to be optically read, the methods generally comprising employing a vapor deposition process of an organosilane gas onto a lithographically patterned silicon surface followed by removal of the patterning media in a bath of organic solvents and ultrasonic excitation. The inventive methods provide optimized surface density of functional species while avoiding deleterious effects that can occur when lithographically patterned substrates are exposed to various gaseous species during the functionalization process.

Abstract: Films for optical use, articles containing such films, methods for making such films, and systems that utilize such films, are disclosed.

Abstract: A reticle includes a repetition pattern and a peripheral pattern, one of which has a first side in a first direction and the other a second side in the first direction. The first side has a first length that is n times the second length of the second side, where n is an integer equal to or larger than 1. The first pattern has at least one of first misalignment measurement patterns provided at positions distant by a third length and ((the third length)+(n?1).times.(the second length)) from an upper end of the first pattern. The third length is equal to or smaller than the second length. The second pattern has a second misalignment measurement pattern provided at a position distant by the third length from an upper end of the second pattern.

Abstract: According to one embodiment, a patterning method includes exposure-transferring a plurality of first island pattern images and a plurality of second island pattern images onto a resist film, each of the plurality of first island pattern images having a configuration having a contour line or a major axis extending in a third direction, the plurality of first island pattern images having a staggered arrangement, each of the plurality of second island pattern images having a configuration having a contour line or a major axis extending in a fourth direction, the plurality of second island pattern images having a staggered arrangement, the first island pattern images and the second island pattern images being continuous in the first direction by a portion of each of the second island pattern images overlapping one of the first island pattern images.

Abstract: A method of forming a integrated circuit pattern. The method includes coating a photoresist layer on a substrate; performing a lithography exposure process to the photoresist layer; performing a multiple-step post-exposure-baking (PEB) process to the photoresist layer; and developing the photoresist layer to form a patterned photoresist layer.

Abstract: Methods of validating results of assessments of test substances using human-derived tissues and/or organs, particularly tissues and/or organs unsuitable for transplantation, include assessing the suitability of the organ and/or tissue for substance testing, as well as inter-organ variability and use of exogenous and/or endogenous controls.

Abstract: A sperm cell process system providing to generate sperm cell insemination samples having controlled sperm cell fertility characteristics of sperm cells.

Abstract: A method of assessing an intracellular pathogen infection and/or monitoring an intracellular pathogen infection in an individual comprises determining whether the individual has (a) T-cells that secrete IFN-? only, (b) T-cells that secrete IL-2 only or (c) T-cells that secrete both IFN-? and IL-2 in response to an intracellular pathogen antigen and optionally determining any change in this cytokine profile.

Abstract: A receptacle having a plurality of interconnected chambers arranged to permit multiple process steps or processes to be performed independently or simultaneously. The receptacles are manufactured to separate liquid from dried reagents and to maintain the stability of the dried reagents. An immiscible liquid, such as an oil, is included to control loading of process materials, facilitate mixing and reconstitution of dried reagents, limit evaporation, control heating of reaction materials, concentrate solid support materials to prevent clogging of fluid connections, provide minimum volumes for fluid transfers, and to prevent process materials from sticking to chamber surfaces. The receptacles can be adapted for use in systems having a processing instrument that includes an actuator system for selectively moving fluid substances between chambers and a detector. The actuator system can be arranged to concentrate an analyte present in a sample.

Abstract: The present disclosure relates to methods and compositions for identifying biomarkers that indicate a biological state, in particular cancer or predisposition to cancer. Also provided are methods and compositions for identifying a greater risk for a cancer-related condition in an subject.

Abstract: The invention relates to methods and reagents for detecting minute amounts of targets having affinity for nucleic acid. The present invention more particularly relates to target detection using aggregates of cationic polymer chains and nucleic acid capture probes linked to particles, such as controllable mobility particles.

Abstract: A method for screening cells with high level expression of a target protein is disclosed. The method includes introducing into a plurality of host cells a DNA construct that encodes both a target protein and an inhibitor to an endogenous selectable marker in the host cells, screening host cells harboring the DNA construct for the expression of the endogenous selectable marker, and isolating cells with reduced expression of the selectable marker. Also disclosed is a DNA construct configured to express both the target protein and the inhibitor inside the host cell.