Abstract: Embodiments described herein relate to plasma processes. A plasma process includes generating a plasma containing negatively charged oxygen ions. A substrate is exposed to the plasma. The substrate is disposed on a pedestal while being exposed to the plasma. While exposing the substrate to the plasma, a negative direct current (DC) bias voltage is applied to the pedestal to repel the negatively charged oxygen ions from the substrate.

Abstract: A server includes a first server unit, a second server unit, a hinge and a connecting element. The second server unit is disposed on the first server unit and is electrically connected to the first server unit. The second server unit is pivoted to the first server unit through the hinge. The connecting element is disposed between the first server unit and the second server unit. The connecting element has a first connection end and a second connection end, wherein the first connection end is connected to the first server unit, and the second connection end is connected to the second server unit. A server system including a rack and at least one server is also provided.

Abstract: A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

Abstract: An end cap of a dialyzer and a fabricating method thereof, and a dialyzer are provided. The end cap includes a main body and a sealing element. The main body has a blood port. The sealing element is integrally connected on an inner wall of the main body.

Abstract: A dialyzer and a fabricating method thereof are provided. The dialyzer includes a housing, a hydrophilic layer, a fixing layer, a plurality of hollow fiber membranes, and two end caps. The housing has a first opening and a second opening, and is provided with a dialysate inlet and a dialysate outlet, wherein an entire peripheral surface of the housing located between the first opening and the dialysate inlet is a first portion, and an entire peripheral surface of the housing located between the second opening and the dialysate outlet is a second portion. The hydrophilic layer is disposed on the inner wall of the first portion and the second portion, wherein the hydrophilic layer and the housing are different materials. The fixing layer is disposed on the hydrophilic layer and fixes the hollow fiber membranes to the inner wall of the housing.

Abstract: A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

Abstract: A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

Abstract: A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

Abstract: A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

Abstract: The present invention relates to antimalarial compounds and their use against protozoa of the genus Plasmodium, including drug-resistant Plasmodia strains. This invention further relates to compositions containing such compounds and a process for making the compounds.

Abstract: The present invention relates to antimalarial compounds and their use against protozoa of the genus Plasmodium, including drug-resistant Plasmodia strains. This invention further relates to compositions containing such compounds and a process for making the compounds.

Abstract: The present invention relates to antimalarial compounds and their use against protozoa of the genus Plasmodium, including drug-resistant Plasmodia strains. This invention further relates to compositions containing such compounds and a process for making the compounds.

Abstract: The present invention relates to antimalarial compounds and their use against protozoa of the genus Plasmodium, including drug-resistant Plasmodia strains. This invention further relates to compositions containing such compounds and a process for making the compounds.

Abstract: The present invention relates to antimalarial compounds and their use against protozoa of the genus Plasmodium, including drug-resistant Plasmodia strains. This invention further relates to compositions containing such compounds and a process for making the compounds.

Abstract: The present invention relates to antimalarial compounds and their use against protozoa of the genus Plasmodium, including drug-resistant Plasmodia strains. This invention further relates to compositions containing such compounds and a process for making the compounds.

Abstract: A method for inhibiting at least one of histone gene transcription and histone expression in a subject is provided.

Abstract: An inductor includes a casing, a coil and a core. The casing is provided with a slot. The coil is constituted of a first terminal, a bottom ring, a top ring and a second terminal. The first terminal is formed into a T-shaped strip and is partially inserted into the slot. The bottom ring wraps from a distal end of the first terminal. The top ring wraps from the distal end of the bottom ring and is overlapped on the bottom ring. The distal end of the top ring is bent downwardly to be located at the outside of the bottom ring. The second terminal extends from the distal end of the top ring and is partially inserted into the slot. The shape of the second terminal is the same as that of the first terminal. All of the first terminal, the bottom ring and the top ring have the same cross-sectional area. The core penetrates the coil and is accommodated in the casing.

Abstract: An inductor includes a casing, a coil and a core. The casing has an accommodating chamber. The casing is provided with two holes in communication with the accommodating chamber. The coil is accommodated in the accommodating chamber. The coil includes a first terminal, a first ring wrapping from a distal end of the first terminal, a second ring wrapped from a distal end of the first ring, and a second terminal extending from a distal end of the second ring. The second ring is formed at the outer periphery of the first ring and extends obliquely and downwardly. The second terminal and the first terminal penetrate through the two holes respectively. The core is disposed in the coil and is accommodated in the accommodating chamber. Via the above arrangement, the vertical space of the present invention can be reduced so as to be made more compact.

Abstract: Biguanide and dihydrotriazine derivatives, preferably substituted asymmetrical imidodicarbonimidic diamides derived from hydroxylamines, and compositions containing biguanide and dihydrotriazine derivatives are disclosed. In addition, methods of using the biguanide and dihydrotriazine derivatives, inter alia, as antimicrobial agents and methods of using the dihydrotriazine derivatives in biological assays are disclosed. Methods of making the biguanide and dihydrotriazine derivatives are also disclosed.

Abstract: The present invention relates to the use of compounds of formula (I), wherein R is C1-C8-alkyl, unsubstituted or substituted with 1, 2 or 3 radicals selected from the group consisting of halogen, amino, nitro, cyano, C1-C4-alkenyl, C1-C4-haloalkenyl, C1-C4-alkoxy, C1-C4-haloalkoxy, C1-C4-alkylthio, 5- to 10-membered heteroaryl containing as ring members 1, 2, 3 or 4 heteroatoms selected from oxygen, sulfur and nitrogen, and phenyl, wherein the heteroaryl and phenyl radicals may be substituted for the control of nematodes, a method for the control of nematodes, and a method for the protection of plants from infestation or attack by nematodes.