Abstract: A method for obtaining lineage committed human cells imbued with enhanced proliferative potential, biological function, or both, comprising culturing lineage committed human cells under physiologically acceptable liquid culture conditions, where the liquid culture medium is replaced at a rate and for a time sufficient to obtain the human lineage committed cells imbued with enhanced proliferative potential, biological function, or both; and isolating the cultured cells.

Abstract: Disclosed is a sorbent device that includes a and sorbent assembly containing a plurality of layered sorbent plates. Each sorbent plate has opposing sorbent surfaces formed of a layer of a sorbent material affixed to each side of a planar support sheet. The sorbent plates are layered so that each of the opposing sorbent surfaces is adjacent to one of the opposing sorbent surfaces on another of the sorbent plates and spaced apart from one another to form a channel between each pair of adjacent opposing sorbent surfaces. An inlet valve provides fluid communication between the sorbent assembly and a gas source, while a two-way outlet valve fluid communication between the sorbent assembly and a processor or a vacuum pump.

Abstract: A device for adsorbing water vapor from a gas stream. The device can be incorporated with an enclosure or garment in such a manner so as to enable water vapor to be adsorbed, thereby decreasing the relative humidity in the micro-climate surrounding the user. The water adsorption device is light-weight, has a high mass and volumetric energy capacity. A desiccant material is included within the water adsorption device to adsorb water vapor and a phase-change material is located in thermal communication with the desiccant to increase the loading capacity of the desiccant and maintain a cool gas stream by extracting the heat of adsorption from the desiccant.

Abstract: A vacuum thermal insulation product is formed of aporous thermal insulation material encased in an evacuated enclosure, with least a portion of the evacuated enclosure including a layer of an electroplated metal.

Abstract: Novel sorption cooling devices capable of providing cooling over an extended period of time are disclosed. The sorption cooling devices are particularly useful for temperature-controlled shipping containers that are required to maintain a temperature below ambient for a time sufficient to complete delivery of the container and its contents. The shipping containers can be utilized to cost-effectively transport temperature-sensitive products.

Abstract: A flat-panel display is fabricated according to a process in which a liquid-containing film (92, 116, 124, 132, 144, or 166) is formed over a substrate (80). In addition to suitable liquid, the liquid-containing film contains oxide or/and hydroxide. Liquid is removed from the liquid-containing film to convert it into a solid porous film (82 or 150) having (a) a porosity of at least 10% along an exposed face of the film, (b) an average resistivity of 108-1014 ohm-cm at 25° C., and (c) an average thickness of no more than 20 &mgr;m. A spacer (24) formed with at least a segment of the substrate and overlying solid porous film is positioned between opposing first and second plate structures (20 and 22) of the display. The second plate structure (22) emits light upon receiving electrons emitted by the first plate structure (20).

Abstract: A sorption cooling device capable of providing cooling over an extended period of time. The sorption cooling device is particularly useful in a temperature-controlled shipping container that is required to maintain a temperature below ambient for an extended period of time. In one embodiment, the cooling device includes a means for restricting the flow of refrigerant liquid to control the degree of cooling over an extended period of time.

Abstract: The present invention relates to nanoporous dielectric films and to a process for their manufacture. A substrate having a plurality of raised lines on its surface is provided with a relatively high porosity, low dielectric constant, silicon containing polymer composition positioned between the raised lines and a relatively low porosity, high dielectric constant, silicon containing composition positioned on the lines.

Abstract: This invention has enabled a new, simple thin film nanoporous dielectric fabrication method. In general, this invention uses glycerol, or another low volatility compound, as a solvent. This new method allows thin film aerogels/low density xerogels to be made without supercritical drying, freeze drying, or a surface modification step before drying. Thus, this invention allows production of nanoporous dielectrics at room temperature and atmospheric pressure, without a separate surface modification step. Although this new method allows fabrication of aerogels without substantial pore collapse during drying, there may be some permanent shrinkage during aging and/or drying. This invention allows controlled porosity thin film nanoporous aerogels to be deposited, gelled, aged, and dried without atmospheric controls.

Abstract: A process for forming a uniform nanoporous dielectric film on a substrate. The process includes horizontally positioning a flat substrate within a cup; depositing a liquid alkoxysilane composition onto the substrate surface; covering the cup such that the substrate is enclosed therein; spinning the covered cup and spreading the alkoxysilane composition evenly on the substrate surface; exposing the alkoxysilane composition to water vapor and base vapor to thereby form a gel; and then curing the gel. The invention also provides an apparatus for spin depositing a liquid coating onto a substrate. The apparatus has a cylindrical cup with an open top section and removable cover which closes the top. A vapor injection port extends through the center of the cover. Suitable means hold a substrate centered within the cup and spin the cup.

Abstract: A sorption cooling device adapted to cool a gas or liquid flowing through a conduit. The cooling device has a high cooling density and a user can independently control the cooling rate. The cooling device can be incorporated in a number of apparatus and in one embodiment is incorporated in a personnel cooling apparatus, such as a closed-loop breathing apparatus or a body cooler.

Abstract: A temperature-controlled container utilizing a sorption cooling unit to maintain the temperature within the container. The sorption cooling unit cools the interior of the container and rejects waste heat to the exterior. The sorption cooling unit provides a lightweight and low volume alternative to the traditional gel pack cooling systems that are commonly used in the modern shipping industry for shipping containers.

Abstract: The present invention relates to nanoporous dielectric films and to a process for their manufacture. Such films are useful in the production of integrated circuits. A precursor of an alkoxysilane, and low and high volatility solvents are mixed at a pH of about 2-5, raised to a pH of about 8 or above with a low volatility base and deposited on a semiconductor substrate. After exposure to atmospheric moisture, a nanoporous dielectric film is produced on the substrate.

Abstract: A desiccant composition and a method for making the desiccant composition. The dessicant composition includes an absorbent such as calcium chloride or lithium chloride which is impregnated onto a highly porous support such as activated carbon that has well controlled porosity characteristics. The material is particularly useful for absorbing high levels of water.

Abstract: A process for forming a nanoporous silica dielectric coating on a substrate. A substrate containing a deposited film is suspended within a sealable hotplate, while remaining free of contact with the hotplate. The hotplate is sealed and an inert gas is flowed across the substrate. The hotplate is heated to a temperature of from about 350° C. or higher, and the substrate is forced to contact the heated hotplate. The substrate is heated for a time that sufficiently removes outgassing remnants from the resultant nanoporous dielectric coating.

Abstract: A structure suitable for partial or full use in a spacer (24) of a flat-panel display has a porous face (54). The structure may be formed with multiple aggregates (100) of coated particles (102) bonded together in an open manner to form pores (58). A coating (88) consisting primarily of carbon and having a highly uniform thickness may extend into pores of a porous body (46). The coating can be created by removing non-carbon material from carbon-containing species provided along the pores. A solid porous film (82) whose thickness is normally no more than 20 &mgr;m has a resistivity of 108 -1014 ohm-cm. A spacer for a flat-panel display contains a support body (80) and an overlying, normally porous, layer (82) whose resistivity is greater parallel to a face of the support body than perpendicular to the body's face.

Abstract: An improved nanoporous dielectric film useful for the production of semiconductor devices, integrated circuits and the like, is provided, together with novel processes for producing these improved films.

Abstract: The present invention is an insulating composite comprising (a) a first thermally reflective layer having a reflective surface and an opposite surface, (b) a second thermally reflective layer having a reflective surface and an opposite surface, and (c) a porous metal oxide film having a thickness of 20 &mgr;m or less that is positioned between the first and second thermally reflective layers such that there is substantially no direct physical contact (thermal bridging) between the first and second thermally reflective layers. The present invention further includes an insulating element in which the insulating composite is disposed within an air-impermeable container.

Abstract: A process for forming a nanoporous dielectric coating on a substrate. The process includes forming a substantially uniform alkoxysilane gel composition on a surface of a substrate, which alkoxysilane gel composition comprises a combination of at least one alkoxysilane, an organic solvent composition, water, and an optional base catalyst; heating the substrate for a sufficient time and at a sufficient temperature in an organic solvent vapor atmosphere to thereby condense the gel composition; and then curing the gel composition to form a nanoporous dielectric coating having high mechanical strength on the substrate.

Abstract: A sorption cooling device adapted to cool a gas or liquid flowing through a conduit. The cooling device has a high cooling density and a user can independently control the cooling rate. The cooling device can be incorporated in a number of apparatus and in one embodiment is incorporated in a personnel cooling apparatus, such as a closed-loop breathing apparatus or a body cooler.