Abstract: A cathode active material for a lithium secondary battery according to an embodiment includes lithium metal oxide particles containing lithium and nickel, and containing a small amount of cobalt or no cobalt. An average particle diameter, a modulus and a hardness of the lithium metal oxide particles are adjusted to satisfy a desired relation. A lithium secondary battery has improved high-temperature storage properties, structural stability and high power properties.

Abstract: A switch apparatus, includes: a base module including a base case, and a moving magnet movably mounted in the base case; and a manipulation module including a manipulation case, and a first magnet fixedly mounted in the manipulation case, wherein the moving magnet moves between a hold position and a releasable position, the hold position refers to a position in which the manipulation module is held onto the base module as an attractive force acts between the moving magnet and the first magnet, and the releasable position refers to a position in which the manipulation module is releasable from the base module as a repulsive force acts between the moving magnet and the first magnet.

Abstract: Disclosed is a small animal intraventricular injection compensator for injecting a drug into a desired location through a syringe, the compensator including: a guide part provided with a guide hole into which a needle of a syringe is inserted; a body comprising an upper cavity provided inside thereof and a cradle provided to seat the guide part on an upper side thereof; and a fixation part integrally provided with the body or separately provided, and comprising a lower cavity provided to allow a head accommodation space, which a head of a small animal may enter into or exit from, to be provided inside thereof by corresponding to the upper cavity.

Abstract: A positive electrode active material for a secondary battery includes a lithium composite transition metal oxide including nickel (Ni), cobalt (Co), and manganese (Mn), wherein the lithium composite transition metal oxide has a layered crystal structure of space group R3m, includes the nickel (Ni) in an amount of 60 mol % or less based on a total amount of transition metals, includes the cobalt (Co) in an amount greater than an amount of the manganese (Mn), and is composed of single particles.

Abstract: The present disclosure relates to a cathode active material for an all-solid-state battery with a controlled particle size and a method for preparing the same. In particular, the cathode active material includes lithium and a transition metal, wherein the cathode active material has a single peak in the range of 1 ?m to 10 ?m as a result of particle size distribution (PSD) analysis.

Abstract: Disclosed is a method for manufacturing a 3D printing structure, the method including: producing a molded body by performing 3D printing on paste including printing powder in a coagulation bath including a hydrogel; hardening the molded body produced in the coagulation bath; and removing the hydrogel in the coagulation bath. A method for manufacturing a 3D printing structure, which is provided according to an aspect of the disclosure, does not require printing of a separate support, and thus it is possible to save time and costs. A post-processing process for removing a support is not required. Thus, a process is further simplified, and there is no risk of damage to a structure.

Abstract: The present invention relates to a composition for preparing an organic-inorganic complex hydrogel and a kit for preparing an organic-inorganic complex hydrogel comprising same, and specifically, to a composition for preparing an organic-inorganic complex hydrogel and a kit for preparing an organic-inorganic complex hydrogel comprising same, comprising: a biocompatible polymer having a photocrosslinkable functional group; and a calcium phosphate-based ceramic powder.

Abstract: Disclosed is a method for manufacturing a 3D printing structure, the method including: producing a molded body by performing 3D printing on paste including printing powder in a coagulation bath including a hydrogel; hardening the molded body produced in the coagulation bath; and removing the hydrogel in the coagulation bath. A method for manufacturing a 3D printing structure, which is provided according to an aspect of the disclosure, does not require printing of a separate support, and thus it is possible to save time and costs. A post-processing process for removing a support is not required. Thus, a process is further simplified, and there is no risk of damage to a structure.

Abstract: A method of manufacturing a p-type MOSFET includes depositing a channel material to form a channel region, forming a source region and a drain region on each side of the channel region along a first direction, depositing a gate oxide layer on the channel region along a second direction crossing the first direction, and depositing a gate electrode on the gate oxide. The channel material includes a group IV element or III-V semiconductor compound and have a diamond or zincblende cubic crystal structure. A <001> direction of the crystal structure is parallel to the second direction. Two adjacent atoms on an out-most atomic layer of the channel region along the first direction are connected to each other via a single intervening atom, and an interface between the gate oxide layer and the channel region has a surface roughness of 1 angstrom or lower.

Abstract: A method of manufacturing a p-type MOSFET includes depositing a channel material to form a channel region, forming a source region and a drain region on each side of the channel region along a first direction, depositing a gate oxide layer on the channel region along a second direction crossing the first direction, and depositing a gate electrode on the gate oxide. The channel material includes a group IV element or III-V semiconductor compound and have a diamond or zincblende cubic crystal structure. A <001> direction of the crystal structure is parallel to the second direction. Two adjacent atoms on an out-most atomic layer of the channel region along the first direction are connected to each other via a single intervening atom, and an interface between the gate oxide layer and the channel region has a surface roughness of 1 angstrom or lower.

Abstract: A composition includes a hydrogel that includes a plurality biodegradable natural polymer macromers crosslinked with a first agent and optionally a plurality of cells dispersed in the crosslinked macromers, the microgels are capable of being crosslinked with a second agent that is different than the first crosslinking agent.

Abstract: The present invention provides an ionically cross-linkable alginate-grafted hyaluronate compound containing alginate and hyaluronate, the alginate and the hyaluronate forming a covalent linkage. The use of the compound can easily provide a cross-linked hyaluronate by adding a divalent cation without using a chemical cross-linking agent. The present invention also provides a method for cell transplantation that includes preparing a composition comprising the compound of claim 1 and cells for transplantation, and administering to a subject in need thereof the composition.