Method for discriminating defects present on a frontside of a transparent substrate from defects present on a backside of the substrate comprises disposing the substrate in an inspection system in which first and a second light beams intersect at a measurement spot on the frontside of the substrate. Relative movement of the substrate and measurement spot is controlled such that a reference plane is kept tangential to the measurement path. A first pattern is identified in a measurement signal, the first pattern corresponding to light scattered by a particle on the backside of the substrate and presenting two intensity peaks separated from each other by a determined separation interval corresponding to the time necessary for the defect to be moved over the distance separating two illumination spots on the backside of the substrate.

Methods of inspecting a material include moving the material and identifying a defect location of a defect. Methods include moving a camera along a second travel path in a second travel direction such that a field of view (FOV) of the camera moves relative to the material along the second travel path to match the defect location. Methods include passing the defect through the field of view (FOV) as the material moves and capturing images of the defect with the camera as the material moves and the defect moves through the FOV. The images include a first image of a first major surface, a second image of a second major surface, and a third image of an intermediate portion of the material between the first major surface and the second major surface. Methods include reviewing the plurality of images to characterize the defect.

Methods for detection of particulate on thin, flexible substrates wherein the substrate is positioned in a bend comprising an apex line. The apex line is illuminated by grazing angle illumination, and light from the illumination scattered by the particulate is captured by a detection apparatus.

The invention teaches a new apparatus and method to photograph glasses in multiple layers for taking high quality photo images with scratch, crash, black/white defect, lack, crack, pin-hole, concave edge and raised edge, bubble and smudge defects on the surface-layer, backside-layer or/and mid-layer of the glasses. The invention also introduces flexible and expendable photographing hardware architecture that will meet various customers inspecting defects requirements and speed requirements.

An apparatus for identifying defects within the volume of a transparent sheet, such as a glass sheet, is provided. The apparatus includes an illumination device that directs incident light onto at least a portion of a surface of the sheet so as to illuminate the sheet, and an image detector onto which the light backscattered from the sheet is directed to image the sheet. The apparatus generates at least two interference images under different capturing conditions in order to perform identification of defects by evaluating the at least two interference images.

Preparation of anhydrous lithium sulfide (Li.sub.2S) purified suitably for applications in advanced batteries, and, in particular, for synthesis of solid electrolytes based on Li.sub.2S, including sulfide solid electrolytes of the type that may be described as crystalline (e.g., polycrystalline), amorphous (e.g., glass) and combinations thereof, such as sulfide glass-ceramic solid electrolyte materials.

A lithium ion-conductive solid electrolyte including a freestanding inorganic vitreous sheet of sulfide-based lithium ion conducting glass is capable of high performance in a lithium metal battery by providing a high degree of lithium ion conductivity while being highly resistant to the initiation and/or propagation of lithium dendrites. Such an electrolyte is also itself manufacturable, and readily adaptable for battery cell and cell component manufacture, in a cost-effective, scalable manner. An automated machine based system, apparatus and methods assessing and inspecting the quality of such vitreous solid electrolyte sheets, electrode sub-assemblies and lithium electrode assemblies can be based on spectrophotometry and can be performed inline with fabricating the sheet or web (e.g., inline with drawing of the vitreous Li ion conducting glass) and/or with the manufacturing of associated electrode sub-assemblies and lithium electrode assemblies and battery cells.

A device for inspecting a foil-type transparent object. The device has a camera and at least one light source. The light source is arranged such that the electromagnetic radiation emitted by the light source illuminates a line-shaped area of a first surface of the object from above or a second surface of the object from below. The illumination is at a predetermined angle () to the respective illuminated surface. The camera is arranged to detect the intensity of the back-reflected electromagnetic radiation in at least a portion of the line-shaped area. The predetermined angle () is less than or equal to 15 and the electromagnetic radiation emitted by the light source (20) is predominantly linear and s-polarized. Also a method of inspection.