Abstract: Provided are a structure with a screw, a screw fixing structure and a display device. The structure with a screw includes a limiting structure, an assembly member, an elastic member and a screw, the limiting structure is connected to the assembly member and provided with an operating hole, the assembly member is provided with a through hole for accommodating the screw and the elastic member, an abutting step is provided in the through hole, an end of the elastic member abuts against the abutting step and the other end of the elastic member abuts against the screw, a head portion of the screw has an operating portion and an abutting portion, the abutting portion abuts against the limiting structure, and the operating portion is exposed through the operating hole.

Abstract: The invention provides a continuous-wave pumped polymer laser and preparation method thereof, comprising: coating an organic polymer solution onto a substrate to form an polymer film, and applying a template having a distributed feedback structure to the polymer film, or coating an organic polymer solution onto a substrate having a distributed feedback structure to form an polymer film, and applying a plate to the polymer film; heating the substrate to reach above the phase transition temperature of the organic polymer, and applying a pressure to the template or plate for 1-100 min; and cooling the substrate to reach below the phase transition temperature of the organic polymer, and removing the template or plate from the organic polymer. The method of the invention is simple, the organic polymer molecular chain and supramolecular structure are oriented to have long range order, and the obtained laser can use continuous-wave pumping.

Abstract: The invention provides a continuous-wave pumped polymer laser and preparation method thereof, comprising: coating an organic polymer solution onto a substrate to form an polymer film, and applying a template having a distributed feedback structure to the polymer film, or coating an organic polymer solution onto a substrate having a distributed feedback structure to form an polymer film, and applying a plate to the polymer film; heating the substrate to reach above the phase transition temperature of the organic polymer, and applying a pressure to the template or plate for 1-100 min; and cooling the substrate to reach below the phase transition temperature of the organic polymer, and removing the template or plate from the organic polymer. The method of the invention is simple, the organic polymer molecular chain and supramolecular structure are oriented to have long range order, and the obtained laser can use continuous-wave pumping.

Abstract: A method of manufacturing a patterned ferroelectric polymer memory medium is disclosed, which includes forming an electrode on a substrate; forming a ferroelectric polymer thin film on the electrode; and patterning and orienting the polymer thin film into a plurality of nanostructures by embossing techniques. Also disclosed are two methods which include forming nanofeatures in an interlayer dielectric (ILD) layer deposited on a substrate; forming a ferroelectric polymer thin film on the ILD layer in the nanofeatures; and patterning and orienting the polymer thin film into a plurality of nanostructures by pressing. The patterning process followed by an annealing process promotes specific crystal orientation, which significantly reduces the operation voltage, and increases the signal-to-noise ratio. The invention also covers devices made of a ferroelectric polymer layer oriented by such an embossing method and the use of such devices at a coercive field of 10 MV/m or less.