Abstract: A method for controlling the IoT devices and an IoT system using the same are provided. The IoT devices includes a trigger device and a functional device. A managing software is executable on a client device. First, a credential is sent to the client from the functional device. Second, a script is received at the trigger device. The script includes the credential, at least one supported command, and at least one supported event. The script is generated at the managing software. The supported command is recognizable to the functional device. When the supported event is triggered at the trigger device, the supported command from the trigger device is received at the functional device. Then, a function of the functional device is performed based on the command, which increases the convenience of operating the system. The trigger device need not recognize the command, which increases the flexibility of the system.

Abstract: A bending sensing device comprises a substrate, a piezoresistive thin film and at least a pair of electrodes. The substrate is flexible and having a two-dimensional structure, and a material of the substrate is mica. The piezoresistive thin film is disposed on the substrate whose material is inorganic compound comprising zinc oxide (ZnO), doped ZnO, germanium (Ge), doped Ge, or any combinations thereof. The at least a pair of electrodes are disposed separately on two terminals of at least a measurement section of the piezoresistive thin film to electrically connect the measurement section.

Abstract: A cathode layer and a membrane electrode assembly of a solid oxide fuel cell are provided. The cathode layer consists of a plurality of perovskite crystal films, and the average change rate of linear thermal expansion coefficients of these perovskite crystal films is about 5% to 40% along the thickness direction. The membrane electrode assembly includes the above-mentioned cathode layer, and the linear thermal expansion coefficients of these perovskite crystal films are reduced towards the solid electrolyte layer of the membrane electrode assembly.

Abstract: A method for fabricating heteroepitaxial semiconductor material on a mica sheet is disclosed. Firstly, a mica substrate is provided. Then, at least one semiconductor film is deposited on the mica substrate to form a flexible substrate whose flexibility is applied to various applications, such as wearable devices, portable photoelectric equipment, or improving the speed and bandwidth of commercial and military systems, such that the flexible substrate has the competitiveness in the market.

Abstract: A method for fabricating heteroepitaxial semiconductor material on a mica sheet is disclosed. Firstly, a mica substrate is provided. Then, at least one semiconductor film is deposited on the mica substrate to form a flexible substrate whose flexibility is applied to various applications, such as wearable devices, portable photoelectric equipment, or improving the speed and bandwidth of commercial and military systems, such that the flexible substrate has the competitiveness in the market.

Abstract: A method for controlling the IoT devices and an IoT system using the same are provided. The IoT devices includes a trigger device and a functional device. A managing software is executable on a client device. First, a credential is sent to the client from the functional device. Second, a script is received at the trigger device. The script includes the credential, at least one supported command, and at least one supported event. The script is generated at the managing software. The supported command is recognizable to the functional device. When the supported event is triggered at the trigger device, the supported command from the trigger device is received at the functional device. Then, a function of the functional device is performed based on the command, which increases the convenience of operating the system. The trigger device need not recognize the command, which increases the flexibility of the system.

Abstract: A cathode layer and a membrane electrode assembly of a solid oxide fuel cell are provided. The cathode layer consists of a plurality of perovskite crystal films, and the average change rate of linear thermal expansion coefficients of these perovskite crystal films is about 5% to 40% along the thickness direction. The membrane electrode assembly includes the above-mentioned cathode layer, and the linear thermal expansion coefficients of these perovskite crystal films are reduced towards the solid electrolyte layer of the membrane electrode assembly.

Abstract: A media for storing information comprises a substrate, a conductive layer formed over the substrate, and a ferroelectric layer epitaxially formed on the conductive layer. The ferroelectric layer includes an a-lattice constant that is substantially matched to an a-lattice constant of the conductive layer and an average c-lattice constant that is longer than an average c-lattice constant of a bulk-grown ferroelectric layer.