A method for thermally-sensitive coating analysis of a component includes imaging the coated, exposed component over a range of distinct frequencies as selected by a narrowband variable filter; estimating parameters of non-uniformity correction (NUC) for every pixel at every wavelength; constructing a 2D temperature map on a pixel-by-pixel basis using the non-uniformity correction; and mapping the 2D temperature map to a 3D computer aided design (CAD) model.

Disclosed herein is a method for determining an adhesability of a film sample.

Methods for processing a vessel, for example to provide a gas barrier or lubricity, are disclosed. First and second PECVD or other vessel processing stations or devices and a vessel holder comprising a vessel port are provided. An opening of the vessel can be seated on the vessel port. The interior surface of the seated vessel can be processed via the vessel port by the first and second processing stations or devices. Vessel barrier and lubricity coatings and coated vessels, for example syringes and medical sample collection tubes are disclosed. A vessel processing system is also disclosed.

Disclosed is a biochemical detection device in which a reaction incubation time required for a biomolecular reaction in a liquid-phase based point-of-care detection reaction device is passively controlled using a dissolvable material layer in a limited volume, thereby to minimize the user intervention.

The biochemical detection device includes a substrate; a probe disposed on the substrate; a dissolvable material layer disposed on the substrate, wherein the dissolvable material layer has a first opening defined therein, wherein the probe is received in the first opening; an absorbing material layer disposed on the dissolvable material layer and having a second opening defined therein, wherein the first opening communicates with the second opening and is smaller than the second opening; and a non-dissolvable material layer disposed on an inner face of the second opening of the absorbing material layer and on an exposed top face of the dissolvable material layer.

Device for the in-vivo and/or in-vitro enrichment of target structures in a sample liquid, including at least one functional portion, which is provided with receptors for enriching the target structures. In order to improve the enrichment of the target structures in the sample liquid, it is provided according to the invention that the functional portion has a helical shape, which is produced by twisting a symmetrical starting cross section about a twisting axis. The invention likewise discloses a method for producing this device.