Abstract: A substrate for epitaxial growth includes a central region that has a center of the substrate and that serves as a non-modified region, and a peripheral region that surrounds the central region in a manner to be spaced apart from the center of the substrate by a distance and that serves as a modified region having a plurality of modified points. A method for manufacturing a substrate for epitaxial growth includes providing a substrate and forming a plurality of modified points in an interior of the substrate in position corresponding to the modified region. A semiconductor device including the substrate and a method for manufacturing the semiconductor device are also disclosed.

Abstract: A bismuth oxide material with a hierarchical structure in gas detection used for detecting the content of low-concentration ammonia in an environment. The bismuth oxide material with the hierarchical structure integrally presents a microsphere shape. The diameter of the microsphere is 1-3 ?m. The bismuth oxide material is formed by self-assembling lamellar structure units with the thickness of 10-80 nm. The bismuth oxide material is made into a gas sensor with high sensitivity and selectivity to ammonia gas at room temperature, which is suitable for detecting trace harmful gas in the environment. The gas sensor made of bismuth oxide does not need to be heated when in use, so that the heating step of the conventional gas sensor is omitted, and the gas sensor can be directly placed in a normal-temperature environment for operation. The method is simple, easy to operate, high in efficiency and wide in application prospect.

Abstract: The present disclosure discloses a display panel and a detecting method thereof. By providing at least one resistance sensor in a bending region, an extending direction of the resistance sensor is perpendicular to an extending direction of an axis for bending and overlaps with the axis for bending. By electrically connecting the resistance sensor to a detecting circuit, a change of the resistance value of the resistance sensor can be reflected as a change of voltage.

Abstract: A bismuth oxide material with a hierarchical structure in gas detection used for detecting the content of low-concentration ammonia in an environment. The bismuth oxide material with the hierarchical structure integrally presents a microsphere shape. The diameter of the microsphere is 1-3 ?m. The bismuth oxide material is formed by self-assembling lamellar structure units with the thickness of 10-80 nm. The bismuth oxide material is made into a gas sensor with high sensitivity and selectivity to ammonia gas at room temperature, which is suitable for detecting trace harmful gas in the environment. The gas sensor made of bismuth oxide does not need to be heated when in use, so that the heating step of the conventional gas sensor is omitted, and the gas sensor can be directly placed in a normal-temperature environment for operation. The method is simple, easy to operate, high in efficiency and wide in application prospect.

Abstract: The invention discloses a method for preparing a flaky iron oxide. The flaky iron oxide is obtained through a vacuum coating machine. The vacuum coating machine includes a vacuum pump, a vacuum pipeline arrangement, a vacuum coating chamber, a flaky iron oxide supporting chamber and an electrical discharging gas inlet. High-energy particles generated by an iron oxide target are deposited on the surface of the conveying belt; and then the flaky iron oxide on a conveying belt is stripped and calcined to obtain the flaky iron oxide with bright color. By means of the method, vacuum sputtering time can be controlled to prepare the flaky iron oxide with various diameter-to-thickness ratios, and pollution caused by a traditional chemical deposition preparation method can be avoided. The preparation method is simple and environment-friendly. Due to the adoption of roller transmission, the production efficiency is improved.

Abstract: The present disclosure discloses a display panel and a detecting method thereof. By providing at least one resistance sensor in a bending region, an extending direction of the resistance sensor is perpendicular to an extending direction of an axis for bending and overlaps with the axis for bending. By electrically connecting the resistance sensor to a detecting circuit, a change of the resistance value of the resistance sensor can be reflected as a change of voltage.

Abstract: The invention discloses a method for preparing a flaky iron oxide. The flaky iron oxide is obtained through a vacuum coating machine. The vacuum coating machine includes a vacuum pump, a vacuum pipeline arrangement, a vacuum coating chamber, a flaky iron oxide supporting chamber and an electrical discharging gas inlet. High-energy particles generated by an iron oxide target are deposited on the surface of the conveying belt; and then the flaky iron oxide on a conveying belt is stripped and calcined to obtain the flaky iron oxide with bright color. By means of the method, vacuum sputtering time can be controlled to prepare the flaky iron oxide with various diameter-to-thickness ratios, and pollution caused by a traditional chemical deposition preparation method can be avoided. The preparation method is simple and environment-friendly. Due to the adoption of roller transmission, the production efficiency is improved.