Provided is a coating film or the like that can improve heat radiation efficiency and/or heat absorption efficiency of an object to be treated.　Provided is a coating film containing at least one kind of inorganic particle and being formed on an object to be treated. The coating film is characterized by having a light absorption rate of 30% or more at the maximum absorption wavelength in a wavelength range of 780-25000 nm, a heat capacity smaller than that of the object to be treated, and a ratio of 5% or more of an overlapping area α, in which a radiation peak in the radiation spectrum 2 of the object to be treated at a first specific temperature overlaps an absorption peak in an absorption spectrum 1 of the coating film when both the radiation peak and the absorption peak are respectively standardized by the maximum values, over the area β of the whole radiation peak. This composite laminate is characterized by comprising: a substrate having a colored surface having a light absorption rate of 30% or more at the maximum absorption wavelength in the wavelength range; and a translucent coating film for coating the colored surface of the substrate, wherein the light reflectance is 30% or more at the maximum reflection wavelength in the wavelength range when light is emitted from the surface side.

• 출원번호 : JP2024/025289
• 출원인 : SAKAMOTO Masanori
• 특허번호 :
• IPC : B32B-007/027(2019.01);C09D-007/61(2018.01);C09D-011/00(2014.01);C09D-011/037(2014.01);C09D-201/00(2006.01);

The present invention provides the intelligent anesthetization system for transperineal prostate puncturing based on multimodal medical images. The system includes coordinate system definition module, markup of MRI sequence images, 3D reconstruction module, ultrasonic data extraction module, registration module and anesthetic planning module. This system transforms images in the preoperative nuclear magnetic imaging coordinate system as well as the target area of anesthetization into real-time electromagnetic emitter coordinate system through multimodal medical image registration, thereby realizing the comprehensive integration of the target area of anesthetization and ultrasonic image in nuclear magnetic resonance image which can be used for medical teaching or surgical guidance and can help to achieve precise positioning of anesthetized area for transperineal prostate biopsy.

• 출원번호 : 24188303.2
• 출원인 : Carbon (Shenzhen) Medical Device Co., Ltd.
• 특허번호 :
• IPC : G06T-007/33(2017.01);G06T-007/11(2017.01);

The cryopreservation of cells from human tissue has challenges from both logistical timing as well as maintenance of cell viability. Therefore, needed are methods to increase cell viability in cellular tissue implants that allow for greater flexibility in timing for processing the implant. Therefore, disclosed herein is a method for increasing viability of cells within a frozen cellular implant, that involves soaking the cellular implant in a first cryoprotectant solution for at least 1 minute, soaking the cellular implant in a second cryoprotectant solution for at least 1 minute, and freezing the cellular implant. Also disclosed is a method for sterilizing a cellular implant comprised of collagen while maintaining cell viability that involves providing a cellular implant, adding a cryoprotectant to the cellular implant, freezing and maintaining a frozen temperature, and irradiating the cellular implant with radiation.

• 출원번호 : US2024/037869
• 출원인 : ADVANCED BIOLOGICS, LLC
• 특허번호 :
• IPC : A01N-001/02(2006.01)

A coolant bypass flow control method and leak tightness test device for a high-temperature gas cooled reactor. The coolant bypass flow leak tightness test device for a high-temperature gas cooled reactor comprises a reactor unit (100), which comprises a protective layer (101) and a plurality of groups of graphite blocks (102); a blocking unit (200), which comprises longitudinal sealing members (201) and transverse sealing racks (202); and an adjusting unit (300), which comprises a plurality of rotating rods (301), a transmission member (302) which is arranged on one side of the rotating rods, and a limiting cover (303). Testing of the leak tightness is conducted by means of a simulation experiment device, and the longitudinal bypass flow and transverse leakage flow of a helium coolant are blocked, thereby reducing the effect of structural bypass flow on the flow distribution of the helium coolant within a pebble bed, ensuring an effective flow rate of the coolant flowing through the pebble bed, and thus optimizing the temperature distribution within the pebble bed and the maximum temperature of fuel, thereby providing support for the design and justification of the reactor structure of the high-temperature gas cooled reactor, further improving the safety and reliability of the pebble bed high-temperature gas cooled reactor.

• 출원번호 : CN2024/105275
• 출원인 : HUANENG NUCLEAR ENERGY DESIGN AND RESEARCH INSTITUTE CO., LTD
• 특허번호 :
• IPC : G21C-013/028(2006.01)

This decorative sheet 1 comprises a base layer 2 and a surface protection layer 5 that is provided on one surface of the base layer 2. The surface of the surface protection layer 5 is provided with a relief structure that includes a plurality of ridge-shaped parts each protruding in a ridge shape. The surface protection layer 5 contains a cured product of an ionizing radiation curable resin. The ionizing radiation curable resin includes an ionizing radiation curable resin that has a cyclic structure.

• 출원번호 : JP2024/025339
• 출원인 : TOPPAN HOLDINGS INC.
• 특허번호 :
• IPC : B32B-027/00(2006.01);B32B-003/30(2006.01);B32B-027/16(2006.01);B32B-027/30(2006.01);E04F-013/07(2006.01);E04F-013/18(2006.01);

Provided are a guide vane body with a vortex suppression structure ring and an axial-flow nuclear reactor coolant pump (RCP), including a rim cover plate, a hub cover plate, guide vane blades and a diffuser, where the hub cover plate is coaxially arranged in the rim cover plate, and a flow channel is placed between the hub cover plate and the rim cover plate, and a plurality of guide vane blades are placed in the flow channel in an array; and an outlet end of the hub cover plate is connected with the diffuser, and an outer wall of the diffuser gradually expands along a fluid flow direction; a diversion ring is arranged circumferentially on an inner wall at the outlet side of the rim cover plate, and the vortex suppression structure ring is placed at an outlet edge of the diversion ring.

• 출원번호 : 18770927
• 출원인 : Jiangsu University
• 특허번호 : 12188489
• IPC : F04D-029/66(2006.01);G21C-015/243(2006.01);

An edge exposure apparatus includes a substrate holder configured to hold and rotate a substrate; an exposure device for radiating exposure light toward a peripheral region of a front surface of the substrate held by the substrate holder; and an exhaust including an exhaust range for performing exhaust and in an outside of an edge of the substrate held by the substrate holder, a place corresponding to a radiation position of the exposure device and extending along the edge.

• 출원번호 : 18771025
• 출원인 : Tokyo Electron Limited
• 특허번호 :
• IPC : G03F-007/00(2006.01);G03F-007/20(2006.01);

Apparatuses and methods as described herein can be used to help stabilize the gain of a semiconductor-based photomultiplier. In an embodiment, an apparatus can include a semiconductor-based photomultiplier. The apparatus can be configured to maintain a constant voltage output of between +/- 0.002% and +/- 15% of a breakdown voltage. A method for stabilizing a radiation detection device can include determining a breakdown voltage of a light source. The light source can be optically coupled to a silicon photomultiplier. The method can also include measuring a plurality of light outputs of the light source provided over a temperature range of 70 degrees and generating an individualized look-up table for the light source based on the measured plurality of light outputs over the said temperature range.

• 출원번호 : US2024/037849
• 출원인 : LUXIUM SOLUTIONS, LLC
• 특허번호 :
• IPC : G01N-023/225(2006.01);G01T-001/24(2006.01);G01T-001/20(2006.01);

The present disclosure provides nucleic acid sequences and nucleic acid delivery constructs comprising “zip code” sequence(s) that home, target, cross a cytoplasm, and/or cross a nuclear membrane of a target cell (e.g., a diseased cell such as a cancer cell) or cell population (e.g., tissue), and integration sequence(s) that allow for integration of at least a portion of such nucleic acid or nucleic acid delivery system into a genome of such target cell. The present disclosure also provides non-naturally occurring nucleic acid constructs and delivery systems comprising such Zip Code and integration sequences as well as one or more cargo molecules that may be coupled covalently or non-covalently to such nucleic acid constructs and systems. Further provided herein are methods of diagnosing and treating diseases such as cancer using the target cell specific nucleic acid constructs and systems described herein.

• 출원번호 : 18771994
• 출원인 : BERNAL-MIZRACHI, Leon
• 특허번호 :
• IPC : A61K-031/711(2006.01);A61K-045/06(2006.01);A61K-048/00(2006.01);A61K-051/02(2006.01);

A laser surgery system includes a light source, an eye interface device, a scanning assembly, a confocal detection assembly and preferably a confocal bypass assembly. The light source generates an electromagnetic beam. The scanning assembly scans a focal point of the electromagnetic beam to different locations within the eye. An optical path propagates the electromagnetic beam from a light source to the focal point, and also propagates a portion of the electromagnetic beam reflected from the focal point location back along at least a portion of the optical path. The optical path includes an optical element associated with a confocal detection assembly that diverts a portion of the reflected electromagnetic radiation to a sensor. The sensor generates an intensity signal indicative of intensity the electromagnetic beam reflected from the focal point location. The confocal bypass assembly reversibly diverts the electromagnetic beam along a diversion optical path around the optical element.

• 출원번호 : 18771735
• 출원인 : Schuele, Georg
• 특허번호 :
• IPC : A61B-003/117(2006.01);A61B-003/00(2006.01);A61B-003/10(2006.01);A61B-003/14(2006.01);A61F-009/007(2006.01);A61F-009/008(2006.01);