Abstract: The present disclosure discloses a film layer analysis method for an electroluminescent device. The electroluminescent device includes an anode layer, an electroluminescent material layer, and a silver-bearing cathode layer that are sequentially laminated. The film layer analysis method includes stripping the silver-bearing cathode layer from the electroluminescent device by using a first ion sputtering source to obtain an analysis sample with the electroluminescent material layer exposed, and analyzing the exposed electroluminescent material layer by using a second ion sputtering source; wherein sputtering energy of the first ion sputtering source is greater than sputtering energy of the second ion sputtering source.

Abstract: Provided are a method for identifying functional elements of a genomic sequence and a library used for identifying functional elements of a genomic sequence.

Abstract: A semiconductor device includes a substrate, two semiconductor fins protruding from the substrate, an epitaxial feature over the two semiconductor fins and connected to the two semiconductor fins, a silicide layer over the epitaxial feature, a barrier layer over the silicide layer, and a metal layer over the barrier layer. The barrier layer includes a metal nitride. Along a boundary between the barrier layer and the metal layer, an atomic ratio of oxygen to metal nitride is about 0.15 to about 1.0.

Abstract: A PMR (perpendicular magnetic recording) write head configured for microwave assisted magnetic recording (MAMR) in the form of spin assisted writing (SAW) or spin torque oscillation (STO) includes a spin-torque oscillator (STO) or SAW device and trailing shield formed of high moment magnetic material (HMTS). By patterning the STO or SAW and the HMTS in a simultaneous process the HMTS and the STO or SAW layers are precisely aligned and have very similar cross-track widths. In addition, the write gap at an off-center location has a thickness that is independent from its center-track thickness and the write gap total width can have a flexible range whose minimum value is the same width as the STO or SAW width.

Abstract: Disclosed herein are methods treating a subject suffering from peritoneal carcinomatosis with a PAI-1 inhibitor, wherein the method comprises determining the concentration of “plasminogen activator inhibitor 1” (PAI-1) and determining the level of phosphorylation of “signal transducer and activator of transcript 3” (STAT3) in a sample obtained from the subject. Also disclosed herein are methods of detecting or determining susceptibility of a subject suffering from peritoneal carcinomatosis to treatment with a PAI-1 inhibitor.

Abstract: A method of producing an infiltrated solid oxide fuel cell (SOFC) layer. The method begins by infiltrating a solution containing a solute into a SOFC layer to produce a primary SOFC layer. The primary SOFC layer is then dried in a heated environment, wherein the heated environment ranges in temperature from about 25° C. to about 100° C. to produce a dry primary SOFC layer. The dry primary SOFC layer is then cooled at a rate less than about 5° C./min to room temperature to produce a cooled primary SOFC layer. The cooled primary SOFC layer is then heated to a temperature greater than 500° C. then quenching to a temperature from about 10° C. to about 30° C. to produce an infiltrated SOFC layer.

Abstract: A PMR (perpendicular magnetic recording) write head configured for thermally assisted magnetic recording (TAMR) and microwave assisted magnetic recording (MAMR) is made adaptive to writing at different frequencies by inserting thin layers of magnetic material into the material filling the side gaps (SG) between the magnetic pole (MP) and the side shields (SS). At high frequencies, the thin magnetic layers saturate and lower the magnetic potential of the bulky side shields.

Abstract: A method for detecting moving objects in video frames, an apparatus and a non-transitory computer-readable storage medium thereof are provided. The method includes that: an encoder in a 3-dimenional (3D) separable convolutional neural network with multi-input multi-output (3DS_MM) receives a first input including multiple video frames, where the encoder includes a plurality of encoder layers including 3D separable convolutional neural network (CNN) layers; the encoder generates a first encoder output; and a decoder in the 3DS_MM receives the first encoder output and generates a first output including multiple first binary masks related to the first input, where the decoder includes a plurality of decoder layers comprising 3D separable transposed CNN layers.

Abstract: A PMR (perpendicular magnetic recording) write head configured for thermally assisted magnetic recording (TAMR) and microwave assisted magnetic recording (MAMR) is made adaptive to writing at different frequencies by inserting thin layers of magnetic material into the material filling the side gaps (SG) between the magnetic pole (MP) and the side shields (SS).

Abstract: A display panel and manufacturing methods thereof are provided. In one example, the display panel includes a flexible substrate having a display area and a non-display area, a dam structure located in the non-display area and disposed around the display area, one or more grooves disposed on the non-display area between the display area and the dam structure, and an organic encapsulation layer. In some examples, the organic encapsulation layer covers each of the display area, at least a portion of the non-display area, and the one or more grooves. Accordingly, a display device comprising the display panel is also provided. Thus, a flatness of the organic encapsulation layer may be improved and peeling may be reduced between the organic encapsulation layer and a substrate on which the organic encapsulation layer is disposed, thereby improving an overall quality of the finished display panel.

Abstract: Provided are an organic compound and use thereof. The organic compound has a structure shown in Formula I. Through molecular structure design, the organic compound is endowed with suitable HOMO and LUMO energy levels, which is conducive to matching energy levels of compounds in adjacent layers and achieving efficient exciton recombination. The organic compound has small overlap of HOMO/LUMO energy level, high singlet energy level ES, high triplet energy level ET and small energy level difference ?EST, which is conducive to reverse intersystem crossing and achieving higher luminescence efficiency. The organic compound molecule has high stability and low stacking degree, which is conducive to reducing concentration quenching and has excellent thermal and film stability. The organic compound is suitable as TADF materials, which is use for OLED devices, conducive to preparing OLED devices, can improve luminescence efficiency and stability of devices, reduce turn-on voltage and extend lifetime of devices.

Abstract: A fuel cell comprising a Ni-based anode. The fuel cell also comprises a catalyst, wherein the catalyst comprises a mixture of: NiO, YSZ, BaCO3, CuO, ZnO, Fe2O3, and Cr2O3. It is envisioned that the fuel cell is operated at temperatures greater than 600° C.

Abstract: A battery cell for an electric vehicle battery pack is provided. A housing of the battery cell can define a cavity. An electrolyte material can be housed within the cavity. A first polarity terminal of the battery cell can be disposed at an open end of the housing. A first conductive tab can be disposed at a closed end of the housing and electrically coupled with a first polarity portion of the electrolyte material. A conductive rod can extend through a core of the electrolyte material and can include a first end disposed at the closed end of the housing and electrically coupled with the first conductive tab. A receptacle can be electrically coupled with the first polarity terminal and can extend towards the electrolyte material to engage with a second end of the conductive rod at the open end of the housing.

Abstract: Methods, apparatus and systems for transmitting data based on asymmetric bandwidth parts in a wireless communication are disclosed. In one embodiment, a method performed by a wireless communication node is disclosed. The method comprises: configuring at least one downlink bandwidth part (BWP) for a wireless communication device, wherein each of the at least one downlink BWP is configured for a downlink transmission to the wireless communication device; configuring at least one uplink BWP for the wireless communication device, wherein each of the at least one uplink BWP is configured for an uplink transmission from the wireless communication device; and configuring a transmission resource on one uplink BWP of the at least one uplink BWP for the wireless communication device to transmit an uplink signal on the transmission resource. The uplink signal indicates a request for activating an associated downlink BWP.

Abstract: A solid oxide fuel cell comprising an anode, an electrolyte, and a cathode comprising PrxCoyO3, wherein the ratio of x and y are 1:1.

Abstract: A fuel cell comprising an indium tin oxide cathode contact is in physical contact subjacent an upper interconnect and in physical contact superjacent a cathode. In this fuel cell an electrolyte is in physical contact subjacent a cathode and superjacent an anode. Finally, a lower interconnect is subjacent the anode.

Abstract: The present disclosure provides a compound having property of thermally activated delayed fluorescence (TADF) and a display device. The compound has a structure represented by Formula (I), in which X is S, O, Se, or C; D is an electron donor, A is an electron acceptor; m is a number of the electron donor D, and the m electron donors D are the same or different; n is a number of the electron acceptor, and the n electron acceptors are the same or different, m and n are integers each independently selected from 1, 2, 3, 4 or 5, and m+n?6. The above compound provides a high luminescence efficiency. The organic light-emitting display device has advantages of improved luminescence efficiency, lower cost and long service life by using the above compound as a light-emitting material, a host material, or a guest material.

Abstract: The present disclosure provides a charging module and a dual-mode wireless charging system. The charging module includes: a DC/DC converter circuit, a low-frequency charging unit, a high-frequency charging unit, and a controller. The low-frequency charging unit includes low-frequency coils, a low-frequency compensation circuit, and a low-frequency rectifier circuit connected to the DC/DC converter circuit being successively connected. The high-frequency charging unit includes high-frequency coils, a high-frequency tuning circuit, and a high-frequency rectifier circuit connected to the DC/DC converter circuit being successively connected.

Abstract: Apparatuses, systems, and methods of storing electrical energy for electric vehicles are provided. A battery pack can be disposed in an electric vehicle to power the electric vehicle. A battery cell can be arranged in the battery pack. The battery cell can have a housing. The housing can define a cavity within the housing. The battery cell can have a solid electrolyte arranged within the cavity. The battery cell can have a cathode disposed within the cavity along a first side of the solid electrolyte. The battery cell can have an anode. The anode can have a carbon nanotube structure. The anode can be disposed within the cavity along the second side of the solid electrolyte and separated from the cathode by the solid electrolyte. The carbon nanotube structure can have pores. The pores can be deposited with electrolyte material to retain lithium material received via the solid electrolyte.

Abstract: An existing design of an integrated circuit includes existing cells that have already been placed and routed. An engineering change order (ECO) specifies additional new cells (ECO cells) to be inserted into the existing design. The ECO cells are also associated with target locations for their placement among the existing cells, but these target locations may violate design rules. The feasibility of “legalizing” the placement of the ECO cells within the existing design is assessed as follows. The ECO cells are clustered into clusters based on their target locations. Clusters are assessed by determining an ECO placement impact (EPI) index for individual clusters. The EPI index is a measure of the feasibility for legalizing the placement of the ECO cells in that cluster.