Abstract: A biosensor device includes a substrate plate, a metal conductive layer, a plurality of working electrodes and an insulating layer. The metal conductive layer is disposed over the substrate plate and has an upper surface. The working electrodes are disposed over the upper surface of the metal conductive layer, wherein each of the working electrodes has a top surface and each of the top surfaces is higher than the upper surface of the metal conductive layer. The insulating layer covers the metal conductive layer and surrounds the working electrodes, wherein an upper surface of the insulating layer is located between the top surfaces and the upper surface of the metal conductive layer such that the working electrodes protrude beyond the upper surface of the insulating layer. A method for manufacturing the biosensor device and a method for detecting biological molecules by using the biosensor device are also provided herein.

Abstract: A biosensor device includes a substrate plate, a metal conductive layer, a plurality of working electrodes and an insulating layer. The metal conductive layer is disposed over the substrate plate and has an upper surface. The working electrodes are disposed over the upper surface of the metal conductive layer, wherein each of the working electrodes has a top surface and each of the top surfaces is higher than the upper surface of the metal conductive layer. The insulating layer covers the metal conductive layer and surrounds the working electrodes, wherein an upper surface of the insulating layer is located between the top surfaces and the upper surface of the metal conductive layer such that the working electrodes protrude beyond the upper surface of the insulating layer. A method for manufacturing the biosensor device and a method for detecting biological molecules by using the biosensor device are also provided herein.

Abstract: A bio-nanowire device includes a substrate having a first surface, a first conductor, a second conductor, and a bio-nanowire. The first and second conductors are disposed on the first surface of the substrate, and are spaced apart from each other. The bio-nanowire has two ends respectively connected to the first and second conductors, and includes a nucleic acid molecule having two nucleotide segments, and a plurality of metal ions bonded between the two nucleotide segments of the nucleic acid molecule. The two nucleotide segments form a double helix structure via base pairs. When a voltage or a current is applied to the bio-nanowire, the oxidation state of the metal ions can be changed such that the non-linear electroconductive characteristic of the bio-nanowire can be controlled.

Abstract: An electric driven protein immobilizing module and method aims at immobilizing proteins rapidly and steadily on the surface of a selected support. The invention employs the characteristics of proteins/enzymes forming a slightly negative charge in a buffer solution. An external electric field is set up to drive the proteins/enzymes to be adsorbed onto the support. The invention improves upon conventional absorption or bonding methods that fix the protein in a non-directional approach which results in masking the protein active site and subsequently loss the protein activity. Thus activity of the protein/enzyme improved, while the time-consuming problem and enzymatic activity loss problem of incubation and vacuum absorption method may be avoided.

Abstract: An electric driven protein immobilizing module and method aims at immobilizing proteins rapidly and steadily on the surface of a selected support. The invention employs the characteristics of proteins/enzymes forming a slightly negative charge in a buffer solution. An external electric field is set up to drive the proteins/enzymes to be adsorbed onto the support. The invention improves upon conventional absorption or bonding methods that fix the protein in a non-directional approach which results in masking the protein active site and subsequently loss the protein activity. Thus activity of the protein/enzyme improved, while the time-consuming problem and enzymatic activity loss problem of incubation and vacuum absorption method may be avoided.