Abstract: A material web is disclosed. The material web includes a fiber layer having a first side and an opposing second side. The fiber layer has a plurality of fibers, each of which having an intimate admixture of a thermoplastic polymer, and a wax and/or oil, wherein at least some of the wax and/or oil is exposed at an outer surface of the fibers. A surface energy treatment is disposed on the first side and/or the second side of the fiber layer.

Abstract: Disposable article that include fibers formed from compositions comprising thermoplastic polymers and waxes are disclosed, where the wax is dispersed throughout the thermoplastic polymer.

Abstract: Disposable article that include fibers formed from compositions comprising thermoplastic polymers and waxes are disclosed, where the wax is dispersed throughout the thermoplastic polymer.

Abstract: Processes for making fibrous structures and more particularly processes for making fibrous structures comprising filaments are provided.

Abstract: Processes for making fibrous structures and more particularly processes for making fibrous structures comprising filaments are provided.

Abstract: Disposable article or nonwoven that includes a first fiber layer comprising a plurality of fibers, each of which comprising an intimate admixture of a thermoplastic polymer, and a wax and/or oil, wherein at least some of the wax and/or oil is exposed at an outer surface of the fibers and wherein a surface energy treatment is disposed on at least some of the plurality of fibers; and a second fiber layer that is adjacent the first fiber layer and that comprises a plurality of cellulosic fibers.

Abstract: Antimicrobial polymer coating formulations are prepared that protect biological surfaces by treating, reducing, ameliorating, preventing or inhibiting pathogenic microorganism ingress to a human or animal host, reducing the potential for infection, particularly by necrotizing fasciitis originating microorganisms, through use of a polymer coating barrier containing antimicrobial agents that facilitates sustained release of biocidal agents active against such opportunistic microorganisms. Such formulations are effective for inhibiting microbial ingress pertaining to soft tissue and skin tears, abrasions, punctures and surgical wounds, and can be used as in water environments and as a skin protectant sunscreen and insect repellent.

Abstract: Methods of depositing compound semiconductor materials on one or more substrates include metering and controlling a flow rate of a precursor liquid from a precursor liquid source into a vaporizer. The precursor liquid may comprise at least one of GaCl3, InCl3, and AlCl3 in a liquid state. The precursor liquid may be vaporized within the vaporizer to form a first precursor vapor. The first precursor vapor and a second precursor vapor may be caused to flow into a reaction chamber, and a compound semiconductor material may be deposited on a surface of a substrate within the reaction chamber from the precursor vapors. Deposition systems for performing such methods include devices for metering and/or controlling a flow of a precursor liquid from a liquid source to a vaporizer, while the precursor liquid remains in the liquid state.

Abstract: A nonwoven web material including fibers formed of a polyolefin and a polyester is disclosed. The fibers may include fine fibers produced by, for example, a meltblowing process. The polyolefin may be polypropylene and the polyester may be polylactic acid. The polylactic acid may be obtained and included by recycling scrap nonwoven material containing a polylactic acid component, hydrolyzing the polylactic acid component to reduce its viscosity, blending the hydrolyzed polylactic acid with a polyolefin resin, and melt-spinning the blended material to form fibers. A related process is disclosed.

Abstract: A nonwoven web material including fibers formed of a polyolefin and a polyester is disclosed. The fibers may include fine fibers produced by, for example, a meltblowing process. The polyolefin may be polypropylene and the polyester may be polylactic acid. The polylactic acid may be obtained and included by recycling scrap nonwoven material containing a polylactic acid component, hydrolyzing the polylactic acid component to reduce its viscosity, blending the hydrolyzed polylactic acid with a polyolefin resin, and melt-spinning the blended material to form fibers. A related process is disclosed.

Abstract: The present invention provides improved gas injectors for use with CVD (chemical vapor deposition) systems that thermalize gases prior to injection into a CVD chamber. The provided injectors are configured to increase gas flow times through heated zones and include gas-conducting conduits that lengthen gas residency times in the heated zones. The provided injectors also have outlet ports sized, shaped, and arranged to inject gases in selected flow patterns. The invention also provides CVD systems using the provided thermalizing gas injectors. The present invention has particular application to high-volume manufacturing of GaN substrates.

Abstract: Embodiments of the invention include methods for forming Group III-nitride semiconductor structure using a halide vapor phase epitaxy (HVPE) process. The methods include forming a continuous Group III-nitride nucleation layer on a surface of a non-native growth substrate, the continuous Group III-nitride nucleation layer concealing the upper surface of the non-native growth substrate. Forming the continuous Group III-nitride nucleation layer may include forming a Group III-nitride layer and thermally treating said Group III-nitride layer. Methods may further include forming a further Group III-nitride layer upon the continuous Group III-nitride nucleation layer.

Abstract: Deposition systems include a reaction chamber, and a substrate support structure disposed at least partially within the reaction chamber. The systems further include at least one gas injection device and at least one vacuum device, which together are used to flow process gases through the reaction chamber. The systems also include at least one access gate through which a workpiece substrate may be loaded into the reaction chamber and unloaded out from the reaction chamber. The at least one access gate is located remote from the gas injection device. Methods of depositing semiconductor material may be performed using such deposition systems. Methods of fabricating such deposition systems may include coupling an access gate to a reaction chamber at a location remote from a gas injection device.

Abstract: Disposable articles that include fibers formed from compositions comprising thermoplastic polymers and waxes, where the wax is dispersed throughout the thermoplastic polymer. The fibers containing the wax can define at least a portion of a nonwoven and can be utilized in one or more of the following article layers: liquid pervious layer, liquid impervious layer, and absorbent core disposed therebetween.

Abstract: Antimicrobial polymer coating formulations are prepared that protect biological surfaces by treating, reducing, ameliorating, preventing or inhibiting pathogenic microorganism ingress to a human or animal host, reducing the potential for infection, particularly by necrotizing fasciitis originating microorganisms, through use of an polymer coating barrier containing antimicrobial agents that facilitates sustained release of biocidal agents active against such opportunistic microorganisms. Such formulations are effective for inhibiting microbial ingress pertaining to soft tissue and skin tears, abrasions, punctures and surgical wounds, and can be used as in water environments and as a skin protectant sunscreen and insect repellent.

Abstract: Disposable article that include fibers formed from compositions comprising thermoplastic polymers and waxes are disclosed, where the wax is dispersed throughout the thermoplastic polymer.

Abstract: This invention provides gas injector apparatus that extends into a growth chamber in order to provide more accurate delivery of thermalized precursor gases. The improved injector can distribute heated precursor gases into a growth chamber in flows that are spatially separated from each other up until they impinge on a growth substrate and that have volumes adequate for high-volume manufacture. Importantly, the improved injector is sized and configured so that it can fit into existing commercial growth chambers without hindering the operation of mechanical and robot substrate-handling equipment used with such chambers. This invention is useful for the high-volume growth of numerous elemental and compound semiconductors, and particularly useful for the high-volume growth of Group III-V compounds and GaN.

Abstract: A micro-fluidic system comprising means for optically trapping a particle and a Raman excitation source for causing Raman scatter from the particle whilst it is in the optical trap.

Abstract: Methods of depositing III-nitride semiconductor materials on substrates include depositing a layer of III-nitride semi-conductor material on a surface of a substrate in a nucleation HVPE process stage to form a nucleation layer having a microstructure comprising at least some amorphous III-nitride semiconductor material. The nucleation layer may be annealed to form crystalline islands of epitaxial nucleation material on the surface of the substrate. The islands of epitaxial nucleation material may be grown and coalesced in a coalescence HVPE process stage to form a nucleation template layer of the epitaxial nucleation material. The nucleation template layer may at least substantially cover the surface of the substrate. Additional III-nitride semiconductor material may be deposited over the nucleation template layer of the epitaxial nucleation material in an additional HVPE process stage. Final and intermediate structures comprising III-nitride semiconductor material are formed by such methods.

Abstract: A gas injector includes a base plate, a middle plate, and a top plate. The base plate, middle plate, and top plate are configured to flow a purge gas between the base plate and the middle plate and to flow a precursor gas between the middle plate and the top plate. Another gas injector includes a precursor gas inlet, a lateral precursor gas flow channel, and a plurality of precursor gas flow channels. The plurality of precursor gas flow channels extend from the at least one lateral precursor gas flow channel to an outlet of the gas injector. Methods of forming a material on a substrate include flowing a precursor between a middle plate and a top plate of a gas injector and flowing a purge gas between a base plate and the middle plate of the gas injector.