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Analysis

1 / 241,939
1.WO/2026/101802SYSTEMS, METHODS, AND USER INTERFACES FOR DISPLAYING ULTRASOUND TESTING DATA
WO 15.05.2026
Int.Class G01N 29/06
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
29Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic waves; Visualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object
04Analysing solids
06Visualisation of the interior, e.g. acoustic microscopy
 Appl.No PCT/US2025/053531 Applicant BAKER HUGHES HOLDINGS LLC Inventor YADAVALLI, Siva Sankar
Ultrasonic testing (UT) data acquired during an inspection of an object is received and a first image of a portion of the object is displayed. The first image is generated in a first scan type based on the UT data. A first user input characterizing a first modification of the first image to focus on a region of interest within the portion of the object can be received, and the first image can be updated based on the first modification. A second user input characterizing a switch from the first scan type to a second scan type can be received. A second image of the portion of the object that is generated in the second scan type can then be displayed. A second modification to the second image based on the first modification to display the region of interest within the portion of the object can be automatically applied.
2.WO/2026/101832METHODS AND APPARATUS FOR PROCESSING A SUBSTRATE USING ELLIPSOMETRY
WO 15.05.2026
Int.Class G01N 21/21
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
21Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
17Systems in which incident light is modified in accordance with the properties of the material investigated
21Polarisation-affecting properties
 Appl.No PCT/US2025/053766 Applicant APPLIED MATERIALS, INC. Inventor LIANTO, Prayudi
Methods and apparatus for processing a substrate are provided herein. For example, a method includes using an extended spectroscopic ellipsometer to direct a beam of electromagnetic radiation having a beam energy toward a portion of a substrate at an incident angle to produce an extended spectroscopic ellipsometry (ESE) data set from the portion of the substrate which includes a measured change of a phase and/or an amplitude of the beam of electromagnetic radiation reflecting away from the portion of the substrate relative to the beam of electromagnetic radiation directed toward the portion of the substrate. One or more properties of the portion of the substrate are then determined based at least in part on the ESE data set of the portion of the substrate.
3.WO/2026/101892ACTUATOR-BASED TEST MACHINE CALIBRATION INSTRUMENT
WO 15.05.2026
Int.Class G01N 3/06
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
3Investigating strength properties of solid materials by application of mechanical stress
02Details
06Special adaptations of indicating or recording means
 Appl.No PCT/US2025/053957 Applicant ILLINOIS TOOL WORKS INC. Inventor BOWEN, Robert George
A testing system calibration instrument (134) includes a plurality of device inputs (136), a plurality of signal processing units (138), a display device (139), a controller (140) and a housing (141) that unifies the components. The plurality of signal processing units (138) includes two or more of a millivolt/volt signal reader (138A) configured to produce a first calibration signal (146A) based on a millivolt/volt signal (136A) received from a first calibration sensor (144A) through one of the device inputs (136), a decoder (138B) configured to produce a second calibration signal (146B) based on an encoded signal (136B) received from a second calibration sensor (142B) through one of the device inputs (136), and a voltmeter (138C) configured to produce a third calibration signal (146C) based on an analog voltage signal (136C) received from a third calibration sensor (142C) through one of the device inputs (136). The controller (140) is configured to control the display device (139) to display information relating to the first calibration signal (146A), the second calibration signal (146B) and/or the third calibration signal (146C).
4.WO/2026/099642AUTONOMOUS MONITORING SYSTEM FOR QUANTIFICATION OF HEAVY METAL IONS IN WATER
WO 15.05.2026
Int.Class G01N 33/18
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
33Investigating or analysing materials by specific methods not covered by groups G01N1/-G01N31/131
18Water
 Appl.No PCT/IB2025/059768 Applicant INL - INTERNATIONAL IBERIAN NANOTECHNOLOGY LABORATORY Inventor BARBOSA QUEIRÓS, Raquel
The present application describes an autonomous monitoring system for the in situ electrochemical detection of heavy metal ions like Zn and Ni in water. The monitoring system is able to collect and process water samples, perform stripping voltammetry analysis and estimate levels of heavy metals in an automated way. The developed system integrates a sample processing module together with modified screen-printed carbon sensors to allow the selective and sensitive detection and quantification of metal ions. The system can perform analytical readings of the sensors and features a data analysis algorithm for the estimation of the metal ions based on the analysis performed. The monitoring system also supports a range of connectivity options and operation modes, for easy and flexible implementation on different water monitoring applications.
5.WO/2026/101517MULTIPLEXED ANALYTE SCREENING IN BIOLOGICAL SPATIAL ASSAYS
WO 15.05.2026
Int.Class G01N 33/53
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
33Investigating or analysing materials by specific methods not covered by groups G01N1/-G01N31/131
48Biological material, e.g. blood, urine; Haemocytometers
50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
53Immunoassay; Biospecific binding assay; Materials therefor
 Appl.No PCT/US2024/054610 Applicant HANNINEN, Adam, M. Inventor HANNINEN, Adam, M.
spatial analysis of a sample, with particular applicability to biological materials, by strategically multiplexing a. plurality of different imaging techniques. For instance, certain inputs can be configured to elicit multiple different types of output signals from the sample simultaneously, each of which encodes a different attribute of the sample. These various outputs, once detected, decoded, and assembled, provide for a more- robust analysis than their individual techniques, i.e., if performed sequentially. As just one illustrative example, the infrared light involved in photothermal-infrared (PI) microscopy can also be used, to simultaneously trigger fluorescence-encoded infrared (FEIR) excitation within the sample. Pegging the excitation signals to specific biomarker targets can drastically enhance the combined 3D imagery' that results. Additional techniques may be integrated (i.e., higher-order multiplexing) to resolve the imagery even further.
6.WO/2026/100302MOVING DEVICE
WO 15.05.2026
Int.Class G01N 27/9013
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
27Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
72by investigating magnetic variables
82for investigating the presence of flaws
90using eddy currents
9013Arrangements for scanning
 Appl.No PCT/JP2025/036213 Applicant JFE STEEL CORPORATION Inventor TOKUMOTO Yuta
This moving device travels on the surface of a magnetic body, the moving device comprising: a device body part (housing 100); drive units 101 that are provided at least on both sides of the device body part, are connected to the device body part via a link mechanism, and are attracted to the surface of the magnetic body by magnetic force; and auxiliary magnets 204 that are provided to the drive units 101 so as to be set away from the surface of the magnetic body and that assist the attraction of the drive units 101 to the surface of the magnetic body.
7.WO/2026/100872METHOD FOR INSPECTING SURFACE ROUGHNESS OF CYLINDRICAL BATTERY THROUGH SURFACE BRIGHTNESS, DEVICE FOR PERFORMING SAME, AND STORAGE MEDIUM HAVING RECORDED THEREON PROGRAM FOR EXECUTING SAME
WO 15.05.2026
Int.Class G01B 11/30
GPHYSICS
01MEASURING; TESTING
BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
11Measuring arrangements characterised by the use of optical techniques
30for measuring roughness or irregularity of surfaces
 Appl.No PCT/KR2025/007682 Applicant LG ENERGY SOLUTION, LTD. Inventor PARK, Seonghwan
A device and method for inspecting the surface roughness of a cylindrical battery through surface brightness may inspect the surface roughness of a cylindrical battery by using surface brightness, thereby securing welding quality between a positive electrode collector plate of the cylindrical battery and a positive electrode terminal of a can, and enabling component management through full inspection, a reduction in losses through prevention of defects in semi-finished products, and a reduction in costs resulting from welding defects.
8.WO/2026/101097LEAKING CELL DETECTION SYSTEM AND METHOD
WO 15.05.2026
Int.Class G01M 3/16
GPHYSICS
01MEASURING; TESTING
MTESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
3Investigating fluid tightness of structures
02by using fluid or vacuum
04by detecting the presence of fluid at the leakage point
16using electric detection means
 Appl.No PCT/KR2025/017447 Applicant LG ENERGY SOLUTION, LTD. Inventor KWON, Youngwoo
A leaking cell detection system according to an embodiment of the present invention may comprise: a gas sensor for generating, using a resistance value varying according to an electrolyte leaking from a battery cell, a measurement value that varies according to a concentration of the leaked electrolyte; and a control unit for calculating a time variation of the measurement value and Bollinger Bands of the time variation, generating a leaking cell determination graph for the battery cell by arranging the time variation, an upper band of the Bollinger Bands, and a lower band of the Bollinger Bands in chronological order, and determining whether the battery cell is a leaking cell, on the basis of whether the leaking cell determination graph includes a first point at which the time variation falls below the lower band of the Bollinger Bands and a second point at which the time variation rises above the upper band of the Bollinger Bands.
9.WO/2026/101157BIOSENSOR SYSTEM FOR MONITORING EPOR DIMER FORMATION INDUCED BY LIGAND, AND TARGET LIGAND DETECTION METHOD USING SAME
WO 15.05.2026
Int.Class G01N 33/74
GPHYSICS
01MEASURING; TESTING
NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
33Investigating or analysing materials by specific methods not covered by groups G01N1/-G01N31/131
48Biological material, e.g. blood, urine; Haemocytometers
50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
74involving hormones
 Appl.No PCT/KR2025/017831 Applicant DAEGU GYEONGBUK INSTITUTE OF SCIENCE AND TECHNOLOGY Inventor LEE, Chang Hun
The present invention relates to a biosensor system for monitoring EPOR dimer formation by ligands and a target ligand detection method using same, wherein EPOR dimer formation by ligand binding can be rapidly and sensitively monitored using a fusion protein in which the EPOR ectodomain and a split fluorescent protein are fused. In addition, it is possible to monitor EPOR dimer formation by ligands and detect target ligands in vitro, and thus the complexity and duration of cell-based assays can be reduced, and high-speed screening can be easily applied. In addition, by measuring the reference fluorescence of a reference fluorescent protein together along with a signal fluorescence and comparing the reference fluorescence and signal fluorescence, accurate and quantitative analysis can be performed regardless of changes in measurement environment or variations in protein concentration.
10.WO/2026/098547ANTIBODY TARGETING CGRP AND USE THEREOF
WO 15.05.2026
Int.Class C07K 16/26
CCHEMISTRY; METALLURGY
07ORGANIC CHEMISTRY
KPEPTIDES
16Immunoglobulins, e.g. monoclonal or polyclonal antibodies
18against material from animals or humans
26against hormones
 Appl.No PCT/CN2025/132978 Applicant HUBEI BIO-PHARMACEUTICAL INDUSTRIAL TECHNOLOGICAL INSTITUTE INC. Inventor QIN, Lingyun
An antibody targeting CGRP and the use thereof. The antibody or antigen-binding portion thereof comprises a heavy chain variable region and a light chain variable region. The heavy chain variable region comprises CDR-H1, CDR-H2 and CDR-H3. The light chain variable region comprises CDR-L1, CDR-L2 and CDR-L3. The antibody can specifically bind to human and rat CGRP polypeptides and α/β subtype CGRP polypeptides with high affinity, block the binding of CGRP to a receptor CGRPR thereof, reduce pain perception, and achieve the treatment of painful diseases such as migraines caused by CGRP. Additionally, the antibody can alleviate or treat hot flushes.
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