Abstract: A novel maize variety designated X13N280 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X13N280 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X13N280 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X13N280, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X13N280 are provided. Methods for producing maize varieties derived from maize variety X13N280 and methods of using maize variety X13N280 are disclosed.

Abstract: A novel maize variety designated X13N274 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X13N274 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X13N274 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X13N274, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X13N274 are provided. Methods for producing maize varieties derived from maize variety X13N274 and methods of using maize variety X13N274 are disclosed.

Abstract: A novel maize variety designated X18N892 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X18N892 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X18N892 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X18N892, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X18N892 are provided. Methods for producing maize varieties derived from maize variety X18N892 and methods of using maize variety X18N892 are disclosed.

Abstract: One embodiment of the invention is directed to a method of preventing, reducing, or eliminating at least one negative effect of oxidative damage, such as an oral disease, caused by a dental device in the mouth of a patient. Another embodiment relates to a method of preventing, reducing, or eliminating at least one negative effect of inflammation. The method may include applying topically to a soft oral tissue in the patient an oral antioxidant composition. The antioxidant composition may include between 0.0001% and 5.0% w/w or at least one antioxidant, wherein the at least one antioxidant includes a natural phytochemcial antioxidant, a flavonoid, an anthocyanidin, a dihydrochalcone, a phenylpropanoid, a chalcone, a curcuminoid, a tannin, a stilbenoid, a coumarin, a carotenoid, or a vitamin, and an orally pharmaceutically acceptable carrier. The pH of the oral antioxidant composition may be at least 5.0.

Abstract: A climate control system for electronic equipment may include an electronic equipment room including a plurality of peripheral walls defining a chamber configured to receive a plurality of pieces of electronic equipment and having one or more interior partitions dividing the chamber into two or more subchambers. In addition, the system may also include a cooling system configured to provide the two or more subchambers with different levels of cooling, wherein at least one partition of the one or more interior partitions is movable from a first position defining a first subchamber to a second position defining a second subchamber in a different area of the room than the first subchamber.

Abstract: A novel maize variety designated X18N907 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X18N907 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X18N907 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X18N907, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X18N907 are provided. Methods for producing maize varieties derived from maize variety X18N907 and methods of using maize variety X18N907 are disclosed.

Abstract: A system to improve cooling of rack mounted components may include a first rack mounted component including a first motherboard, the first motherboard having a hot area that is generally hotter than other portions of the motherboard, the hot area proximate a first edge. In addition, the system may include a second rack mounted component disposed above the first rack mounted component; the second rack mounted component having a second motherboard, wherein the second motherboard is similar to the first motherboard; the second motherboard having a first edge; wherein the second motherboard is disposed above the first motherboard, and wherein the second motherboard is angled with respect to the first motherboard so that the first edge of the second motherboard is non-aligned with the first edge of the first motherboard.

Abstract: Certain embodiments of the invention provide plates for treating periarticular fractures or other non-full body weight bearing applications that combine polyaxial fixation with a low profile and enhanced contouring that more closely conforms to bone. Such plates can be designed to achieve buttressing effect and/or to be used in a reinforcement mode. Other features can be combined with these. Such plates can be created for use on bone sites such as on a tibia, fibula, metatarsal, calcaneous, other foot bone, humerus, radius, ulna, spinal, maxillofacial, as well as sites on other bones.

Abstract: The invention features improved bone screws, a delivery manifold for delivering a flowable medium to a bone screw, and washers for use with the bone screw to provide compressive fixation. The invention also features methods of treatment using the bone screws, washers, and/or delivery manifold, and kits that include the same.

Abstract: Certain embodiments of the invention provide plates for treating periarticular fractures or other non-full body weight bearing applications that combine polyaxial fixation with a low profile and enhanced contouring that more closely conforms to bone. Such plates can be designed to achieve buttressing effect and/or to be used in a reinforcement mode. Other features can be combined with these. Such plates can be created for use on bone sites such as on a tibia, fibula, metatarsal, calcaneous, other foot bone, humerus, radius, ulna, spinal, maxillofacial, as well as sites on other bones.

Abstract: In conventional solar cells with metal contacts, a non-negligible fraction of the incoming solar power is immediately lost either through absorption or reflection upon interaction with the contacts. Effectively transparent contacts (“ETCs”) for solar cells can be referred to as three-dimensional contacts designed to redirect incoming light onto a photoabsorbing surface of a solar cell. In many embodiments, the ETCs have triangular cross-sections. Such ETCs can be placed on a photoabsorbing surface such that at least one of their sides forms an angle with the photoabsorbing surface. In this configuration, the ETCs can redirect incident light onto the photoabsorbing surface, mitigating or eliminating reflection loss compared to conventional solar cells. When constructed in accordance with a number of embodiments of the invention, ETCs can be effectively transparent and highly conductive.

Abstract: In conventional solar cells with metal contacts, a non-negligible fraction of the incoming solar power is immediately lost either through absorption or reflection upon interaction with the contacts. Effectively transparent contacts (“ETCs”) for solar cells can be referred to as three-dimensional contacts designed to redirect incoming light onto a photoabsorbing surface of a solar cell. In many embodiments, the ETCs have triangular cross-sections. Such ETCs can be placed on a photoabsorbing surface such that at least one of their sides forms an angle with the photoabsorbing surface. In this configuration, the ETCs can redirect incident light onto the photoabsorbing surface, mitigating or eliminating reflection loss compared to conventional solar cells. When constructed in accordance with a number of embodiments of the invention, ETCs can be effectively transparent and highly conductive.

Abstract: Bifacial solar cells have been gaining momentum due to their promise of reducing the price of photovoltaic generated electricity by increasing power output. In addition to front side illumination, bifacial solar cells can also accept photons incident on the rear side. In many embodiments, increased power output values of up to and around 50% can be achieved. In some circumstances, other values can be achieved. For example, ˜40-70% under cloudy conditions and between ˜13-35% under sunny conditions, depending on the height of the ground clearance, can be achieved. Other factors such as but not limited to the (spectral) albedo of the surroundings as well as the geometry in which the cells are mounted can strongly influence the power output. As can readily be appreciated, the exact amount of increased power output can vary widely depending on the configuration and operating conditions of the bifacial solar cell.

Abstract: The present disclosure relates to a wafer-level packaged (WLP) bulk acoustic wave (BAW) device, which includes a BAW resonator and a WLP enclosure. The BAW resonator includes a piezoelectric layer with an interface opening, a bottom electrode lead underneath the interface opening, an interface structure extending over the interface opening and connected with the bottom electrode lead, a passivation layer with a passivation opening over the interface structure, and an oxide adhesion layer with an adhesion opening over the passivation layer. The WLP enclosure includes an outer wall directly residing over the oxide adhesion layer, and a through-WLP via encompassed by the outer wall and vertically aligned with the adhesion opening and the passivation opening. A portion of the interface structure is exposed to the through-WLP via through the adhesion opening and the passivation opening.

Abstract: A novel maize variety designated X13M606 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X13M606 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X13M606 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X13M606, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X13M606 are provided. Methods for producing maize varieties derived from maize variety X13M606 and methods of using maize variety X13M606 are disclosed.

Abstract: A novel maize variety designated X13M635W and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X13M635W with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X13M635W through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X13M635W, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X13M635W are provided. Methods for producing maize varieties derived from maize variety X13M635W and methods of using maize variety X13M635W are disclosed.

Abstract: A novel maize variety designated X18M726 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X18M726 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X18M726 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X18M726, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X18M726 are provided. Methods for producing maize varieties derived from maize variety X18M726 and methods of using maize variety X18M726 are disclosed.

Abstract: The invention features bone drill guides, sleeves, and methods of use thereof in inserting hardware into bones, in particular to repair bone defects. The bone drill guides are designed to seat firmly against bone while allowing translational, rotational, and angular movement during an operation. The bone drill guides also allow for insertion of multiple devices, such as guide wires, into bone at defined and constrained relative position.

Abstract: A novel maize variety designated X15M017 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X15M017 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X15M017 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X15M017, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X15M017 are provided. Methods for producing maize varieties derived from maize variety X15M017 and methods of using maize variety X15M017 are disclosed.