Abstract: A material handling system comprising one or more sub-systems and one or more sensing panels is provided. Each sensing panel may determine whether a mode control token is within a vicinity of the respective sensing panel. When the mode control token is within the vicinity of the respective sensing panel, the sensing panel may generate a signal, and when the mode is outside of the vicinity of the respective sensing panel, the generation of the signal is halted. The material handling system may further include a processor that enables at least one of the one or more sub-systems of the material handling system in response to the generated signal and disables each of the one or more sub-systems of the material handling system in response to a halting of the generation of the signal.

Abstract: A material handling system comprising one or more sub-systems and one or more sensing panels is provided. Each sensing panel may determine whether a mode control token is within a vicinity of the respective sensing panel. When the mode control token is within the vicinity of the respective sensing panel, the sensing panel may generate a signal, and when the mode is outside of the vicinity of the respective sensing panel, the generation of the signal is halted. The material handling system may further include a processor that enables at least one of the one or more sub-systems of the material handling system in response to the generated signal and disables each of the one or more sub-systems of the material handling system in response to a halting of the generation of the signal.

Abstract: An OLED device comprising a substrate with a top surface; a first electrode covering the top surface of the substrate; a first insulating structure patterned over a portion of the first electrode where the pattern defines an inside area of the first electrode that is completely surrounded by the insulating structure, and an outside area of the first electrode not covered by the insulating structure; at least one organic layer for light emission within the inside area defined by the insulating structure; a second electrode over the at least one organic layer within the inside area defined by the insulating structure and at least partially over the first insulating structure; a cover slip located at least over the second electrode in the inside area defined by the insulating structure; and an electrically conductive solder seal making a hermetic seal between the insulating structure and the cover slip where the solder seal is in electrical contact with the second electrode.

Abstract: The invention relates to the use of agents that bind the complement protein C5 in the treatment of diseases associated with inappropriate complement activation, and in particular in the treatment of peripheral nerve disorders.

Abstract: Methods of forming plasmonic diamond films are provided. In an embodiment, such a method comprises forming a first layer of diamond on a substrate; depositing a layer of a metal on a surface of the first layer of diamond to form an as-deposited layer of metal; exposing the as-deposited layer of metal to a plasma treatment to convert the as-deposited layer of metal to a plurality of discrete regions of the metal on the surface of the first layer of diamond; and forming a second layer of diamond on the plurality of discrete regions of metal to form the plasmonic diamond film comprising a plurality of plasmonic nanoparticles.

Abstract: A material handling system comprising one or more sub-systems and one or more sensing panels is provided. Each sensing panel may determine whether a mode control token is within a vicinity of the respective sensing panel. When the mode control token is within the vicinity of the respective sensing panel, the sensing panel may generate a signal, and when the mode is outside of the vicinity of the respective sensing panel, the generation of the signal is halted. The material handling system may further include a processor that enables at least one of the one or more sub-systems of the material handling system in response to the generated signal and disables each of the one or more sub-systems of the material handling system in response to a halting of the generation of the signal.

Abstract: Methods for the photoreduction of molecules are provided, the methods comprising illuminating an amino-terminated diamond surface comprising amino groups covalently bound to the surface of diamond with light comprising a wavelength sufficient to excite an electronic transition defined by the energy band structure of the amino-terminated diamond, thereby inducing the emission of electrons from the amino-terminated diamond surface into a sample comprising molecules to be reduced, wherein the emitted electrons induce the reduction of the molecules to form a reduction product; and collecting the reduction product.

Abstract: The invention relates to the use of agents that bind the complement protein C5 in the treatment of diseases associated with inappropriate complement activation, and in particular in the treatment of respiratory disorders.

Abstract: Methods for the photoreduction of molecules are provided. The methods use diamond having a negative electron affinity as a photocatalyst, taking advantage of its ability to act as a solid-state electron emitter that is capable of inducing reductions without the need for reactants to adsorb onto its surface. The methods comprise illuminating a fluid sample comprising the molecules to be reduced and hydrogen surface-terminated diamond having a negative electron affinity with light comprising a wavelength that induces the emission of electrons from the diamond directly into the fluid sample. The emitted electrons induce the reduction of the molecules to form a reduction product.

Abstract: A large-format substrate with distributed control elements is formed by providing a substrate and a wafer, the wafer having a plurality of separate, independent chiplets formed thereon; imaging the wafer and analyzing the wafer image to determine which of the chiplets are defective; removing the defective chiplet(s) from the wafer leaving remaining chiplets in place on the wafer; printing the remaining chiplet(s) onto the substrate forming empty chiplet location(s); and printing additional chiplet(s) from the same or a different wafer into the empty chiplet location(s).

Abstract: Methods for the photoreduction of molecules are provided, the methods comprising illuminating an amino-terminated diamond surface comprising amino groups covalently bound to the surface of diamond with light comprising a wavelength sufficient to excite an electronic transition defined by the energy band structure of the amino-terminated diamond, thereby inducing the emission of electrons from the amino-terminated diamond surface into a sample comprising molecules to be reduced, wherein the emitted electrons induce the reduction of the molecules to form a reduction product; and collecting the reduction product.

Abstract: The invention relates to the use of agents that bind the complement protein C5 in the treatment of diseases associated with inappropriate complement activation and in particular in the treatment of myasthenia gravis.

Abstract: The invention relates to the use of agents that bind the complement protein C5 in the treatment of diseases associated with inappropriate complement activation, and in particular in the treatment of peripheral nerve disorders.

Abstract: A large-format substrate with distributed control elements is formed by providing a substrate and a wafer, the wafer having a plurality of separate, independent chiplets formed thereon; imaging the wafer and analyzing the wafer image to determine which of the chiplets are defective; removing the defective chiplet(s) from the wafer leaving remaining chiplets in place on the wafer; printing the remaining chiplet(s) onto the substrate forming empty chiplet location(s); and printing additional chiplet(s) from the same or a different wafer into the empty chiplet location(s).

Abstract: Provided is an electrode comprising an active material comprising silicon, carbon or both, and a layer comprising active material protecting compounds covalently bound to the surface of the active material, the active material protecting compounds comprising an electrochemically polymerizable group, e.g., an aryl group or a cyclic alkenyl group. Batteries incorporating the electrodes are also provided, e.g. lithium ion batteries.

Abstract: The invention relates to the use of agents that bind the complement protein C5 in the treatment of diseases associated with inappropriate complement activation, and in particular in the treatment of peripheral nerve disorders.

Abstract: The invention relates to the use of agents that bind the complement protein C5 in the treatment of diseases associated with inappropriate complement activation, and in particular in the treatment of myasthenia gravis.

Abstract: Methods for the photoreduction of molecules are provided. The methods use diamond having a negative electron affinity as a photocatalyst, taking advantage of its ability to act as a solid-state electron emitter that is capable of inducing reductions without the need for reactants to adsorb onto its surface. The methods comprise illuminating a fluid sample comprising the molecules to be reduced and hydrogen surface-terminated diamond having a negative electron affinity with light comprising a wavelength that induces the emission of electrons from the diamond directly into the fluid sample. The emitted electrons induce the reduction of the molecules to form a reduction product.