Abstract: The present disclosure relates to methods of making shaped bodies comprising providing a substantially uniform temperature and gas flow throughout the shaped body as a function of reaction time. The disclosure further relates to methods of making shaped bodies substantially uniformly oxidized. The methods comprise setting at least one shaped body and performing at least one firing of the at least one shaped body. The present disclosure further relates to shaped bodies made according to the methods disclosed.

Abstract: Disclosed herein, without limitation, are activated carbon honeycomb catalyst beds and systems for removing mercury and other toxic metals from a process stream, i.e, from flue gas of a coal combustion system. The activated carbon honeycomb can for example remove greater than 90% mercury from flue gas with a simple design and without adding material to the flue gas. Also disclosed herein, and without limitation, are methods for manufacturing and using the disclosed honeycomb catalyst beds and systems.

Abstract: Methods and apparatus provide for contacting respective first surfaces of a plurality of donor semiconductor wafers with a glass substrate; bonding the first surfaces of the plurality of donor semiconductor wafers to the glass substrate using electrolysis; separating the plurality of donor semiconductor wafers from the glass substrate leaving respective exfoliation layers bonded to the glass substrate; and depositing a further semiconductor layer on exposed surfaces of the exfoliation layers to augment a thickness of the exfoliation layers.

Abstract: Nanoporous activated carbon material having a high specific capacitance in EDLCs and controlled oxygen content, and methods for making such activated carbon material. Reduction of oxygen content is achieved by (a) curing a carbon precursor/additive mixture in an inert or reducing environment, and/or (b) refining (heating) activated carbon material after synthesis in an inert or reducing environment. The inert or reducing environment used for curing or refining is preferably substantially free of oxygen.

Abstract: A two-cycle thermal process for making porous activated carbon materials involves a first step of heating a mixture of a carbon precursor/chemical additive in a first heating cycle at a first temperature to cause gas liberation and volumetric expansion of the mixture, and heating the carbon material produced in the first step in a second heating cycle at a second temperature to carbonize and activate the carbon precursor. During the second cycle, essentially no gas liberation or volumetric expansion is observed.

Abstract: Methods and apparatus provide for contacting respective first surfaces of a plurality of donor semiconductor wafers with a glass substrate; bonding the first surfaces of the plurality of donor semiconductor wafers to the glass substrate using electrolysis; separating the plurality of donor semiconductor wafers from the glass substrate leaving respective exfoliation layers bonded to the glass substrate; and depositing a further semiconductor layer on exposed surfaces of the exfoliation layers to augment a thickness of the exfoliation layers.

Abstract: Plate systems and methods of using them. The plate systems may be used, for example, for the removal of metallic or semi-metallic contaminants from a fluid stream.

Abstract: Methods of disposing of sorbent bodies comprising at least one toxic element which is substantially prevented from leaching into the surrounding environment are disclosed. The at least one toxic element which is prevented from leaching into the surrounding environment may include, for example, mercury, selenium, or both. The methods of disposing of said sorbent bodies may include, for example, depositing the sorbent bodies in a landfill. Landfill-disposable sorbent bodies which are configured to substantially prevent leaching into the surrounding environment of at least one toxic element are also disclosed.

Abstract: Sorbents comprising activated carbon particles, sulfur, and metal catalyst. The sorbents may be used, for example, for the removal of a contaminant, such as mercury, from a fluid stream.

Abstract: An hybrid capacitor includes an electrically non-conductive rigid or semi-rigid porous honeycomb structure having cells extending along a common direction, the cells having a plurality of cross-sectional shapes. The honeycomb structure is desirably formed of a material that is stable at temperatures of 3000 or more, such that high temperature processing can be used to help ensure high purity of the final product. The material of the structure may desirably be an oxide or non-oxide ceramic, such as cordierite, silicon nitride, alumina, aluminum titanate, zircon, glass, or glass-ceramic. The plurality of shapes of the cells includes larger shapes in which cells are disposed non-galvanic electrodes, with galvanic electrodes disposed in cells of other shapes.

Abstract: The disclosure provides a method comprising contacting a fibrous polymeric material and a carbon material to form a mixture, contacting the mixture with a liquid to form a slurry, and then forming a layer comprising the slurry. Also disclosed are layers formed from the recited methods, electrodes comprising the layers, and electrical devices comprising the layers and/or electrodes.

Abstract: A flow-through sorbent comprising at least 30 wt % of a metal sulfide, and a binder. The sorbent may be used, for example, for the removal of a contaminant, such as mercury, from a fluid stream.

Abstract: A composite comprising an inorganic substrate with a coating comprising activated carbon and a metal sulfide. The composite may be used, for example, for the removal of a contaminant, such as mercury, from a fluid stream.

Abstract: Methods and apparatus provide for a glass or glass ceramic substrate, including: a bulk layer; an enhanced positive ion concentration layer; and a reduced positive ion concentration layer, wherein the enhanced positive ion concentration layer contains substantially all modifier positive ions from the reduced positive ion concentration layer as a result of migration, the substrate does not include any further material thereon.

Abstract: Disclosed are methods for making SOI and SOG structures using purified ion shower for implanting ions to the donor substrate. The purified ion shower provides expedient, efficient, low-cost and effective ion implantation while minimizing damage to the exfoliation film.

Abstract: A method for the sorption of a liquid or vapor phase trace contaminant from a fluid stream containing an electrically charged particulate, which comprises: providing a fluid stream comprising a liquid or vapor phase trace contaminant and an electrically charged particulate; providing an electrically conductive stationary sorbent having an electrical charge that is of the same polarity as that of the charged particulate; and contacting the fluid stream with the charged stationary sorbent, which sorbs the trace contaminant and repels the charged particulate.

Abstract: A method for managing the use of flow-through monolithic sorbents for the sorption of a trace contaminant from a fluid stream, which comprises: providing two or more flow-through monolithic sorbents having a trace contaminant sorbed thereon, wherein the flow-through monolithic sorbents are positioned in an initial series to allow for passing a fluid stream from an upstream inlet end of the series to a downstream outlet end of the series; removing an inlet end portion of the flow-through monolithic sorbents from the inlet end position of the series; moving a downstream portion of the flow-through monolithic sorbents from a downstream position in the series to the inlet end position of the series; and placing a replacement flow-through monolithic sorbent portion in a downstream position of the series.

Abstract: Disclosed herein, without limitation, are activated carbon honeycomb catalyst beds for removing mercury and other toxic metals from flue gas of a coal combustion system. The activated carbon honeycomb can for example removal greater than 90% mercury from flue gas with a simple design and without adding material to the flue gas. Also disclosed herein, and without limitation, are methods for manufacturing the disclosed honeycomb catalyst beds.

Abstract: An ultracapacitor or hybrid capacitor includes an electrically non-conductive rigid or semi-rigid porous honeycomb separator structure having cells extending along a common direction and supporting current collector structure(s) thereon. The current collector structure may be porous and extend continuously on all inner surfaces of a cell of the honeycomb structure, or may extend along the common direction on separate portions of the inner surfaces of a cell. The honeycomb structure desirably formed of a material that is stable at temperatures of 300° or more, such that high temperature processing can be used to help ensure high purity of the final product. The material may desirably be an oxide or non-oxide ceramic, such as cordierite, silicon nitride, or aluminum titanate. The cells desirably have an average density per unit area within in a plane perpendicular to the common direction of more than 15.5 per square centimeter.

Abstract: A ceramic honeycomb product comprising a thin-walled ceramic honeycomb structure incorporating a plurality of parallel channels bounded by thin channel walls traversing the body from a first end face to a second end face thereof; and a composite coating disposed on at least one end face of the structure comprising a powder of an abrasion-resistant ceramic dispersed in a dried siliceous matrix.