Abstract: A cell thawer is provided. The cell thawer comprises: a thawing part comprising a heating block, which includes a first heating block and a second heating block that form a heating space for heating a container storing a predetermined amount of a biological material including cells, a heater, which is provided in the heating block so that the heating block can be provided with heat, an insulating block, which is coupled to the heating block so as to encompass the heater, and a support, which is for supporting the lower portion of the container in the heating space; a driving part for providing driving force that linearly moves each of the first heating block and the second heating block in the left and right directions; and a control part for controlling the operations of the thawing part and the driving part.

Abstract: A cell thawing device is provided. A cell thawing device according to one embodiment of the present invention is a cell thawing device for thawing biological material comprising cells, the cell thawing device comprising: a housing; a body part which is disposed inside the housing and may form an accommodation space so as to surround at least a portion of a container in which the biological material is stored; a moving part for moving the body part toward the container so that the body part forms the accommodation space; a heating part which is installed in the body part and transfers heat to the container disposed in the accommodation space; and a sensing part for detecting a physical quantity of the body part or the container, wherein a heat transfer space is formed between the body part and the container such that heat can be transferred from the body part to the container in a non-contact manner.

Abstract: A cell thawing machine is provided.

Abstract: A cell thawing machine is provided. The cell thawing machine comprises: a thawing unit that includes heating blocks including a first heating block and a second heating block forming a heating space for heating a container in which a predetermined amount of biological material including cells is stored, heaters installed in the heating blocks to provide heat to the heating blocks, and insulation blocks coupled to the heating blocks so as to surround the heaters; a driving unit that provides driving force for raising and lowering support pins so that the pins can support a lower portion of the container, and moving the first heating block and the second heating block in a straight line to the left and right; and a control unit that controls the thawing unit and the driving unit.

Abstract: In one example, a semiconductor structure comprises a frontside substrate comprising a conductive structure, a backside substrate comprising a base substrate and a cavity substrate contacting the base substrate, wherein the backside substrate is over a top side of the frontside substrate and has a cavity and an internal interconnect contacting the frontside substrate, and a first electronic component over the top side of the frontside substrate and in the cavity. The first electronic component is coupled with the conductive structure, and an encapsulant is in the cavity and on the top side of the frontside substrate, contacting a lateral side of the first electronic component, a lateral side of the cavity, and a lateral side of the internal interconnect. Other examples and related methods are also disclosed herein.

Abstract: A lens moving apparatus including a base, a coil board disposed on the base and comprising a first bore, a second coil, and a terminal conductively connected to the second coil, a housing disposed on the coil board, a bobbin disposed in the housing, a first magnet disposed at the housing so as to be opposite to the second coil in an optical axis direction, a pad portion disposed between the coil board and the base, a conductive adhesive member connecting the terminal of the coil board and the pad portion. The terminal is disposed to contact an inner circumferential surface of the coil board, and the pad portion comprises a curved surface.

Abstract: The present invention relates to a mobile robot and a method for controlling the same. The present invention provides a mobile robot using the rotational force of at least three rotating members as a movement power source and a method for controlling the same, in which the mobile robot is controlled to effectively travel along a set curved driving path and not deviate from the set curved driving path, or to immediately return to the curved driving path when deviating from the set curved driving path.

Abstract: There is provided a method for determining dementia risk factors by a server using deep learning. In this instance, the method for determining dementia risk factors includes acquiring biometric information from each subject corresponding to a first control group through a wearable device, acquiring measurement information for each subject corresponding to the first control group, deriving a first dementia risk factor based on the biometric information and the measurement information for each subject, and deriving a second dementia risk factor related to the first dementia risk factor via deep learning performed based on the biometric information related to the first dementia risk factor and control group information.

Abstract: An air-bridge type superconducting coupler is provided. A frequency-fixed superconducting coupler includes: a bridge over a substrate, the bridge comprised of superconducting material, the bridge having two ends that each comprise a respective contact pad, each contact pad having an electrical connection to a respectively corresponding superconducting qubit, and each contact pad directly or indirectly contacting the substrate, wherein there is a gap between the substrate and a corresponding portion of the bridge that is between the contact pads.

Abstract: The present disclosure relates to an organic compound having the following structure, and an organic light emitting diode (OLED) and an organic light emitting device including the organic compound. Applying the organic compound into an emissive layer makes the OLED and the organic light emitting device lower their driving voltage, improves their luminous efficiency and color purity.

Abstract: An capacitor processing apparatus, and a method for processing a capacitor, may include a clamping module grabbing or releasing a capacitor to transport the capacitor, and processing modules matched with each other to process and test leads of the capacitor, and simultaneously perform various processes through different processing units formed in the processing modules. These various processes may include separating, bending, and cutting the leads of the capacitor. The testing and processing provided by the current invention make it is possible to process a larger amount of capacitors assembled to a capacitor assembly, and to identify and remove defective capacitors before assembly.

Abstract: Aa superconducting computing apparatus includes: frequency tunable devices connected to each other and arranged in a shape; a ferromagnetic film disposed adjacent to the frequency tunable devices and having an up magnetic domain or a down magnetic domain; and a control circuit configured to adjust a position of a magnetic domain wall in the ferromagnetic film by applying a current to the ferromagnetic film, wherein the position of the magnetic domain wall controls a resonant frequency of the frequency tunable devices.

Abstract: According to an example embodiment of the present disclosure, a multilayer electronic component may have a body in which corners thereof have a rounded shape, a radius of curvature of a corner disposed in an upper cover portion may be larger than a radius of curvature of a corner disposed in a lower cover portion, and an average size of dielectric crystal grains included in an upper cover portion may be larger than an average size of dielectric crystal grains included in a lower cover portion.

Abstract: A multilayer electronic component according to an example embodiment of the present disclosure may include: a body including a plurality of capacitance formation portions including first dielectric layers and internal electrodes alternately arranged in a first direction. An intermediate layer disposed is between the adjacent capacitance formation portions and includes a second dielectric layer. An external electrode is disposed on the body and connected to the internal electrode. The first and second dielectric layers may include a plurality of grains and pores. An average grain size of the first dielectric layer may be smaller than an average grain size of the second dielectric layer. A porosity of the first dielectric layer may be lower than a porosity of the second dielectric layer.

Abstract: The present disclosure is directed to compounds of formula (I): wherein R1, R2, R3, R3a, R4, Y, and X are as described herein, as stereoisomers, enantiomers, or tautomers thereof or mixtures thereof; or pharmaceutically acceptable salts, solvates, or prodrugs thereof, and pharmaceutical compositions comprising the compounds of formula (I), as described herein, which are useful as voltage-gated sodium channel modulators and are therefore are useful in treating seizure disorders such as epilepsy.

Abstract: An adhesive includes: a resin binder including an acrylic polymer and carboxylic acid; metal chelate hardener; and epoxy-based hardener.

Abstract: A multilayer electronic component includes a body including a dielectric layer and first and second internal electrodes alternately disposed with the dielectric layer therebetween, an external electrode including a connection portion and a band portion extending from the connection portion onto at least one of the first, second, fifth and sixth surfaces. The external electrode includes a base electrode layer, a lower plating layer disposed on the base electrode layer, and an upper plating layer disposed on the lower plating layer. The body includes a groove disposed on end of the band portion. Ends of the lower and upper plating layers respectively fill at least portions of the groove.

Abstract: An electrolyte for a lithium secondary battery including an organic solvent, a lithium salt, and a phosphate-based additive including a compound represented by Formula 1. A lithium secondary battery according to embodiments of the present disclosure may include a cathode, an anode opposite to the cathode, and an electrolyte including the phosphate-based additive represented by Formula 1.

Abstract: An organic light emitting diode (OLED) comprises at least one exciton generation layer that can generate exciplex disposed adjacently to an emitting material layer. While emissive zone is extended to the exciton generation layer as well as the emitting material layer, exciton recombination zone is limited to the emitting material layer. The luminous lifespan of the OLED can be improved by preventing materials degradations within the emissive layer. The driving voltage of the OLED can be lowered as holes and electrons can be injected rapidly into the emitting material layer.

Abstract: A semiconductor memory device includes a memory bank arranged into first through nth split regions containing at least one memory cell sub-array within each split region, and first through nth global input/output (GIO) split lines electrically coupled to the first through nth split regions. First through n-lth connection control transistors are provided, which have gate terminals responsive to respective connection control signals. The first connection control transistor is configured to electrically short the first and second GIO split lines together when enabled by a corresponding connection control signal, and the n?1th connection control transistor is configured to electrically short the n?1th and nth GIO split lines together when enabled by a corresponding connection control signal. A GIO sense amplifier is provided, which is electrically coupled to the memory bank.