Abstract: Provided is an adduct represented by Formula 1: A.PbY2.Q??(1) wherein A is an organic or inorganic halide, Y is F?, Cl?, Br? or I? as a halogen ion, and Q is a Lewis base including a functional group containing a nitrogen (N), oxygen (O) or sulfur (S) atom with an unshared pair of electrons as an electron pair donor. The Lewis base is maintained more stable in the lead halide adduct. Therefore, the use of the adduct enables the fabrication of a perovskite solar cell with high conversion efficiency.

Abstract: An acousto-optic imaging method in which light waves and unfocused acoustic waves having various directions of propagation m are emitted in a medium, by spatially modulating the amplitude of the ultrasonic transducers of an array of transducers according to several periodic spatial amplitude modulations j, and the resulting optical signal Smj(t) is captured. For each direction of propagation m, the signals Smj(t) are spatially demodulated in order to determine a signal Sm(t) used to reconstruct the image of the medium.

Abstract: A battery electrode is provided that includes a porous silicon microstructure precursor, a silicon shell coating deposited on the silicon microstructure precursor, and a graphene coating deposited on the silicon shell coating, where the graphene coating encapsulates the silicon shell coating forming a graphene-encapsulated silicon-shell-protected porous silicon microstructure precursor battery electrode.

Abstract: According to a specific embodiment of the present invention, an object at each viewpoint is recognized through image recognition, each recognized object is labeled, directional values and label values of objects that are determined as being the same are then input into an MPD, the MPD is transported, a direction of an object at a viewpoint to be moved, within an image, is corrected with a derived offset directional value, reproduction is performed, and thus, only with the labeling and the directional value of the object, the same content can be displayed on a screen without the user switching between directions. Accordingly, a reduction in an amount of data to be processed can improve a processing speed, and in turn, a sense of reality can be improved. Additionally, compatibility with an existing DASH structure is ensured, and applicability to existing image transport systems is widely expandable.

Abstract: The present invention relates to novel bis-hydrazone derivatives of formula (I): wherein Ar1 and Ar2 may be identical or different and are each independently selected from the group consisting of groups of formula (II) and (III): Y1 and Z1 are independently CH or NRc+, provided that al least one of Y1 and Z1 is NRc+ and at least one of Y1 and Z1 is CH, and Ra, Rb, Rc, X2? and L as defined in the claims, or a hydrate or a solvate thereof. Compositions and kits comprising same are also described. Said bis-hydrazone derivatives of formula (I), compositions and kits are useful as drugs, in particular for treating or preventing cancers associated with the Epstein-Barr Virus.

Abstract: The present invention relates to a system for providing a stereoscopic 3D 360-degree virtual reality (VR) service based on a hybrid network. According to a detailed embodiment of the present invention, standardizing and multiplexing based on an ATSC 3.0 protocol for a base layer stream, an enhancement layer stream, and a stereoscopic stream which are derived from a high resolution left eye image and a high resolution right eye image which are captured by 360-degree cameras may be performed by performing MPD signaling, and thus realistic media such as HD and UHD resolution 360-degree VR broadcast services, stereoscopic 3D 360-degree VR services, etc. may be provided. In addition, system complexity may be reduced by deriving a base layer stream, an enhancement layer stream, and a stereoscopic stream by using one encoder, and thus compression efficiency may be improved.

Abstract: The present invention provides, among other things, methods and compositions for the effective prophylactical or therapeutical treatment of Chronic kidney disease (CKD), particularly for the prophylactical or therapeutical treatment of the tubulointerstitial fibrosis associated to CKD, more particularly for the prophylactical or therapeutical treatment of renal fibrosis.

Abstract: A semiconductor package includes: a substrate; a semiconductor chip disposed on a first surface of the substrate; solder bumps disposed between a first surface of the semiconductor chip and the substrate; and a redistribution layer provided on a second surface, opposite to the first surface, of the semiconductor chip. The substrate includes substrate patterns, and the substrate patterns cover a second surface of the substrate. The substrate patterns cover 60% to 100% of a total area of the second surface of the substrate.

Abstract: A capacitor structure includes: a first substrate having a first electrode part provided on one surface thereof; a second substrate having a second electrode part provided on a surface thereof, which faces the first substrate; and a dielectric layer provided between the first substrate and the second substrate, wherein a Poisson's ratio of the first substrate or the second substrate is different from a Poisson's ratio of the dielectric layer. The capacitor structure has a substantially constant capacitance even when the capacitor structure is exposed to external strain.

Abstract: A plasmonic device is disclosed, the plasmonic device having a base substrate and an electrically conductive film formed on the base substrate. The base substrate has a reference upper surface and an arrangement of chiral nanostructures formed in relief from the reference upper surface. Each chiral nanostructure has a nanostructure upper surface which is disposed at a distance of at least 30 nm from the reference upper surface in a thickness direction. The electrically conductive film is formed on the nanostructure upper surface of each chiral nanostructure and on at least part of the reference upper surface of the base substrate. Also disclosed is a method of analysis of a biological material using the plasmonic device, by depositing the biological material onto the plasmonic device and irradiating the plasmonic device and the biological material with electromagnetic radiation.

Abstract: Provided are a silicon oxide-carbon composite, a method of preparing the same, and an energy storage device containing the same. In the method of preparing a silicon oxide-carbon composite, a reaction solution containing an organic solvent including an aromatic compound is provided. Crystalline carbon structures are formed by generating plasma in the reaction solution. A slurry is formed by adding silicon halide and a polyol in the reaction solution in which the crystalline carbon structures are dispersed. The slurry is separated from the organic solvent and subjected to thermal treatment.

Abstract: There is disclosed a system and method of predicting a location of a user's viewport using location information of a sound source in 360 virtual reality (VR) content. According to the present invention, the spatial representation description (SRD) and the sound source localization information (SLI) of the audio MPD are transmitted with the video MPD being extended, the SRD of the sound source is used to derive the location of the sound source, and the weights of the respective items of the region of interest (ROI), the sound source localization information (SLI), the current viewport, and the pole are allocated differentially according to the bandwidth condition and then multiplied by the reference bitrate to determine the segment bitrate to be provided next, thereby improving the accuracy of predicting the location of the user's viewport and ensuring the quality of experience (QoE) for regeneration speed and regeneration quality.

Abstract: The construction method of NALU (Network Abstraction Layer Unit) for IPv6 label switching and its using algorithms of video encoding, QoS control, and decoding are provided. According to an embodiment of the present invention, the NALU format is composed of the NALH (Network Abstraction Layer Header) including the label and the NAL (Network Ab straction Layer) payload. Here, the label is determined based on layer information which is combination of a spatial scalable level, a temporal scalable level, and a quality scalable level of the encoded data. The decoder uses the label to decide which one of multiple decoding modules is used to decode the current NAL payload. Moreover, the label can be included in the packet header so that the MANE (Media Aware Network Element) can use the label to decide whether to forward the packet or drop it. For example, the label in the packet header can be used for QoS control of video service by using the flow label field in IPv6 packet header.

Abstract: Disclosed herein is an alloy for a vehicle garnish, which is made by mixing Cu as a base with Mg and Si to have a composition of CuaMgbSic, wherein the alloy can have a color close to Au and the color of the alloy can be changed, and wherein the allow can also be made to have a low specific gravity and at a low cost.

Abstract: The disclosure relates to modified apelin polypeptides having increased stability against kallikrein, NEP and ACE2 degradation and/or potency relative to the native apelin-13 and apelin-17 polypeptides. Embodiments also disclose methods of using the polypeptides for treating cardiovascular disorders.

Abstract: Disclosed is an optoelectronic device including a lanthanum-based active layer and a method for fabricating the same. The optoelectronic device includes an active layer of multiple quantum well (MQW) structure including each well between walls, wherein the wall is a dielectric layer selected from alkali metal halide, alkali earth metal halide, alkali metal chalcogenide and alkali earth metal chalcogenide, and the well is a layer including semiconductor selected from lanthanum-based metal halide, lanthanum-based metal chalcogenide, transition metal (including post transition metal) halide and transition metal chalcogenide. The optoelectronic device including the active layer can be used in applications of LEDs, displays, optical sensors and solar cells. When the active layer is used as a photoconversion layer, displays can be implemented by upconversion or downconversion of short wavelength of UV, blue and IR light source to visible wavelength of red, green and blue.

Abstract: Embodiments provide focused wireless charging method and apparatus based on radio frequency receiving and phase compensation retransmission. The method is based on the reciprocity principle, making each charging signal transmitted by the external charging system could stack in-phase when arriving at the embedded rechargeable battery, realizing wireless near field focusing in any given area in an unknown complex inhomogeneous propagation environment and a high charging efficiency. The focused wireless charging technology based on radio frequency receiving and phase compensation retransmission in embodiments could realize in-phase stacking and precise focus of each wireless charging signal of the external system on the embedded batteries to be charged automatically under different propagation environment, different environment medium, and possible random offset of the rechargeable battery.

Abstract: Disclosed is a process and device allowing for fast measurements of the physicochemical properties of amphiphiles (lipids, surfactants, soaps, . . . ). A Marangoni flow is created and characterized using amphiphiles to be characterized. The observed flow is characterized, and using the disclosed process, one can deduce from this measurement many important physicochemical parameters of the amphiphiles such as their critical micellar concentration. Compared to existing techniques, the disclosed process offers the advantage that it requires a single experiment to deduce the parameters, when other techniques (pendant drop method, conductometry, etc . . . ) require the measurement of a quantity (interfacial tension, conductometry) against a systematically varied parameter (amphiphile concentration, . . . ). The disclosed process and devices are ideal to characterize and/or screen rapidly amphiphiles molecules based on their interaction with a solvent.

Abstract: Disclosed is a method for manufacturing a flip chip, in which a gold typically used in a flip chip manufacturing is adhered by conductive adhesives, wherein the method comprises steps of depositing a metal seed layer on a substrate; applying and patterning a photoresist or a dry film; forming a gold bump by electroplating; patterning the seed layer; forming an insulating layer on the seed layer and upper end of the gold bump; and patterning an insulating layer. Accordingly, it is possible to manufacture a flip chip, in which electrical function between bumps can be evaluated, with less cost.

Abstract: Disclosed is a method for manufacturing a flip chip, in which a gold typically used in a flip chip manufacturing is adhered by conductive adhesives, wherein the method comprises steps of depositing a metal seed layer on a substrate; applying and patterning a photoresist or a dry film; forming a gold bump by electroplating; patterning the seed layer; forming an insulating layer on the seed layer and upper end of the gold bump; and patterning an insulating layer. Accordingly, it is possible to manufacture a flip chip, in which electrical function between bumps can be evaluated, with less cost.