Abstract: A micro electrochemical multiplex Real-Time PCR platform which can be widely used to rapidly amplify, examine, and quantify target nucleotides in real-time, and can be used in sepsis diagnosis, rapid detection of animal/plant viral or bacterial infections, plant disease control, real-time environmental monitoring, food industry contamination prevention, and improvement of agricultural varieties.

Abstract: A novel surface acoustic wave device with a decreased velocity dispersion and a low insertion loss as well as the fabrication method therefore is provided. The surface acoustic wave device includes a substrate, an insulating layer with an indentation on the substrate, a silicon layer divided by an etched window with a first portion on the insulating layer and a second portion suspended above the indentation, a piezoelectric layer on the first and the second portions of the silicon layer, and at least an electrode on the piezoelectric layer.

Abstract: A method and an apparatus for fabricating a multi-element compound nanostructure are provided. The method includes steps of providing a substrate in a chamber, providing a particle-beam having plural first particles, providing a particle source having plural second particles to fill the chamber therewith and focusing the particle-beam on the substrate and depositing the first particles with the second particles on the substrate to form the multi-element compound nanostructure. In comparison with the conventional ones, the provided method is more simplified and has a great potentiality for being applied.

Abstract: A novel surface acoustic wave device with a decreased velocity dispersion and a low insertion loss as well as the fabrication method therefor is provided. The surface acoustic wave device includes a substrate, an insulating layer with an indentation on the substrate, a silicon layer with a first portion on the insulating layer and a second portion suspended above the indentation, a piezoelectric layer on the first and the second portions of the silicon layer, and at least an electrode on the piezoelectric layer.

Abstract: A micro-lens device for manufacturing a micro-lens is provided. The micro-lens device comprises a substrate where at least a first surface area having a first surface energy, a second surface area having second surface energy and a stagnant area having a third surface energy are respectively disposed thereon. The first surface area is mounted between the first surface area and the stagnant area, and the first surface energy is lower than the second surface energy. The third surface area is highest than the first and second ones.

Abstract: A novel surface acoustic wave device with a decreased velocity dispersion and a low insertion loss as well as the fabrication method therefor is provided. The surface acoustic wave device includes a substrate, an insulating layer with an indentation on the substrate, a silicon layer with a first portion on the insulating layer and a second portion suspended above the indentation, a piezoelectric layer on the first and the second portions of the silicon layer, and at least an electrode on the piezoelectric layer.

Abstract: A detecting device for biochemical detections is provided. The detecting device includes a first substrate, a magnetic layer located on the first substrate, an isolation layer located on the magnetic layer, at least a first electrode located on the isolation layer, a first dielectric layer located on the first electrode, a first hydrophobic layer located on the first dielectric layer, a second substrate, at least a second electrode located on the second substrate and having a cathode and an anode, a second dielectric layer located on the second electrode' and a second hydrophobic layer located on the second dielectric layer. The first electrode is zigzag-shaped, and the cathode and the anode of the second electrode are comb-shaped and interlaced with each other.

Abstract: A novel surface acoustic wave device with a decreased velocity dispersion and a low insertion loss as well as the fabrication method therefor is provided. The surface acoustic wave device includes a substrate, an insulating layer with an indentation on the substrate, a silicon layer with a first portion on the insulating layer and a second portion suspended above the indentation, a piezoelectric layer on the first and the second portions of the silicon layer, and at least an electrode on the piezoelectric layer.

Abstract: The present invention provides a light-enhancing component and a fabrication method thereof by using the focused-ion-beam. In the present invention, the surface plasmon polariton structure is coated on the surface of the optical fiber so as to form the light-enhancing component. When the light passes through the optical fiber, the luminous flux transmitted through the aperture on the surface plasmon polariton is enhanced, and the light beam smaller than the diffraction limitation can be transmitted to the far-field, i.e. the nano-optic sword is formed. The light-enhancing component of the present invention can be used for the optical data storage, the optical microscopy, the biomedical detections and the lithography to perform the extra optical resolutions beyond the diffraction limitation.

Abstract: The in-situ micro-spectro-sensor determines whether a leakage occurs during the plasma process by taking the advantage of detecting the target leak in gas specifically composed of 99% of nitrogen and oxygen which are four to one in ratio. Warning signals with light and sound are available. The main part is compact, small and set up is quite convenient. Non-invasive in-situ detection has no effect on in-line process, but can indeed breakthrough the in-situ leak detection barrier for plasma-based process facilities of high-tech industries such as semiconductors and opto-electronics.

Abstract: A detecting device for biochemical detections is provided. The detecting device includes a first substrate, a magnetic layer located on the first substrate, an isolation layer located on the magnetic layer, at least a first electrode located on the isolation layer, a first dielectric layer located on the first electrode, a first hydrophobic layer located on the first dielectric layer, a second substrate, at least a second electrode located on the second substrate and having a cathode and an anode, a second dielectric layer located on the second electrode and a second hydrophobic layer located on the second dielectric layer. The first electrode is zigzag-shaped, and the cathode and the anode of the second electrode are comb-shaped and interlaced with each other.

Abstract: A control device for controlling a liquid droplet is provided. The control device includes a substrate and a supporting structure made of at least a hydrophobic composite and located on the substrate. A surface energy difference is generated in response to a surface variation of the supporting structure, so as to control a behavior of the liquid droplet.

Abstract: A biochemical detecting device for separating a reagent, a plurality of magnetic beads and a target from a mixture, and detecting the target is provided. The biochemical detecting device includes a first substrate, at least two first electrode sets located on the first substrate, a second electrode set located on the first substrate and between the two first electrode sets, and a second substrate covering the first substrate, each of the first electrode sets and the second electrode set. Accordingly, the movement of the mixture is digitally controlled by the provided biological detecting device.