Abstract: A method of analyzing nucleic acid by compensating for crosstalk in polymerase chain reaction (PCR) data and other data, wherein crosstalk signals associated with multiple fluorescent dyes are corrected by using fluorescent intensity variations detected from a concentration difference of the fluorescent dyes, and apparatus for performing the method.

Abstract: A method and apparatus for performing quantitative analysis of a nucleic acid by determining a curve-fitting area based on fluorescence intensity data obtained by performing PCR on a target nucleic acid; analyzing parameters for amplification efficiency and nucleic acid concentration by curve-fitting a result of performing PCR on a reference nucleic acid with a known initial nucleic acid concentration; and estimating the initial nucleic acid concentration of the target nucleic acid by performing curve-fitting on the determined curve-fitting area using the analyzed parameters.

Abstract: A method of efficiently bonding two surfaces using nitrogen plasma, and a structure manufactured by using the same.

Abstract: A composition and kit for detecting Clostridium difficile including a primer set for detecting a strain of Clostridium difficile, and a method of detecting Clostridium difficile by using the same.

Abstract: A fluid control apparatus including a detecting unit including a light source for irradiating light toward a microfluidic device, and a photodetector for detecting light reflected from the microfluidic device, a transporting unit for moving the detecting unit; and a determining unit for controlling a transporting operation by the transporting unit, where determining a state of a fluid at a particular position relative to the microfluidic device is based on light reflected from the microfluidic device, and method of using same.

Abstract: Methods and compositions for enhancing reaction efficiency and sensitivity in polymerase chain reaction (PCR) are disclosed.

Abstract: Provided is a method of separating microorganisms from a sample including contacting the sample containing microorganisms with an inorganic on exchange material such that the sample reacts with the inorganic on exchange material, and contacting the reacted sample with a means for capturing microorganisms.

Abstract: An efficient method of processing a target material in a sample using a microfluidic device including an elastic membrane.

Abstract: A pH adjusting apparatus includes an electrolytic chip receiving a solution, an electrolytic chip loading station receiving the electrolytic chip, an input unit inputting electrolysis conditions, a control unit receiving the electrolysis conditions and controlling electrolysis performed in the electrolytic chip, and a display unit displaying the electrolysis conditions and a progress of the electrolysis. Thus, the pH of a solution can be adjusted easily and accurately, by precisely controlling a constant current, a constant voltage, and current and voltage application times, thereby enabling useful application in various biological assays such as cell lysis. Furthermore, the pH adjusting apparatus has small size and weight and can be operated for a long time after charging once due to low power consumption.

Abstract: An ion exchangeable mixture containing a polymeric compound consisting of an ion exchange resin, an acrylamide mixture containing at least one bisacrylamide and at least one acrylamide, and a copolymer obtained by reacting the polymeric compound with the acrylamide mixture, and a method of producing the same are provided. The ion exchangeable membrane produced by using the ion exchangeable mixture has significantly smaller electric resistance than conventional ion exchangeable membranes, and has excellent selective permeability because the ion exchangeable membrane is electrically charged. The ion exchangeable membrane can be produced under very mild production conditions, and thus can be produced very easily. Furthermore, the ion exchangeable membrane can be also formed into film during a crosslinking reaction in a solvent of water, and thus is advantageous in that the ion exchangeable membrane can be freely produced into desired sizes, shapes and forms.

Abstract: Embodiments of the disclosure describe a microfluidic device and a method of manufacturing the same. An embodiment of the microfluidic device includes a first substrate in which a micro-flow path and a valve seat protruding toward the micro-flow path are formed; a second substrate disposed to face the first substrate and in which a cavity corresponding to the valve seat is formed; and a polymer film disposed between the first substrate and the second substrate and comprising a bonding unit bonded to the first and second substrates and a variable unit having a variable shape according to pneumatic pressure of the cavity, wherein the variable unit has a curvature and is spaced apart from the valve seat when pneumatic pressure is not provided to the variable unit.

Abstract: A gene analysis device including an illumination optical system radiating exciting light onto a sample solution; a microfluidic device for forming a bio-reaction space of the sample solution and including at least one micro-chamber in which a reflection pattern is formed; and a detection optical system for detecting a fluorescence signal generated by a bio-reaction in the micro-chamber and comprising a photodetector.

Abstract: Provided are a bi-functional compound that is positively charged at a first pH and negatively charged at a second pH, a solid support having the bi-functional compound immobilized thereon, and a method of isolating a nucleic acid, including: binding the bi-functional compound with a nucleic acid at a first pH and isolating the nucleic acid from the bi-functional compound at a second pH.

Abstract: Provided is a microfluidic device for electrochemically regulating the pH of a fluid comprising: a cathode substrate; an anode substrate facing the cathode substrate and forming a reaction chamber with the cathode substrate; and a nonconductor which forms a boundary between the portions of the cathode substrate and the anode substrate that are capable of contacting one another, wherein at least one of the cathode substrate and the anode substrate is a semiconductor doped with impurities and the other is a metal electrode.

Abstract: A primer or primer pair comprising a 3?-photolabile group, and a method of amplifying nucleic acids with controlled polymerization using the primer or primer pair, as well as related compositions, kits, and device for amplifying nucleic acids.

Abstract: An electrodialysis apparatus includes a sample chamber including first and second dialysis membranes and filled with a sample between the first dialysis membrane and the second dialysis membrane, an anode chamber including an anode and filled with a first chamber solution between the anode and the first dialysis membrane, and a cathode chamber including a cathode and filled with a second chamber solution between the cathode and the second dialysis membrane. In particular, when a voltage is applied to the anode and the cathode, ionic materials of the sample move to the anode and cathode chambers.

Abstract: A microfluidic device which electrochemically regulates a pH of a fluid, and a method of regulating a pH of a fluid using the microfluidic device, include a chamber which includes a cathode formed of a metal adsorbing hydrogen gas, and an anode formed of a metal having a higher standard oxidation potential than, and does not react with, water.

Abstract: An ion exchangeable mixture containing a polymeric compound consisting of an ion exchange resin, an acrylamide mixture containing at least one bisacrylamide and at least one acrylamide, and a copolymer obtained by reacting the polymeric compound with the acrylamide mixture, and a method of producing the same are provided. The ion exchangeable membrane produced by using the ion exchangeable mixture has significantly smaller electric resistance than conventional ion exchangeable membranes, and has excellent selective permeability because the ion exchangeable membrane is electrically charged. The ion exchangeable membrane can be produced under very mild production conditions, and thus can be produced very easily. Furthermore, the ion exchangeable membrane can be also formed into film during a crosslinking reaction in a solvent of water, and thus is advantageous in that the ion exchangeable membrane can be freely produced into desired sizes, shapes and forms.

Abstract: A fluorescence detecting optical system, and a multi-channel fluorescence detection apparatus comprising same, comprising a light source that emits excitation light, a polarizer that transmits light having a predetermined polarization component, a polarizing beam splitter that transmits light having a predetermined polarization component and reflects light having a different polarization component than the predetermined polarization component, and a quarter-wave plate converting linearly polarized to circularly polarized light or vice versa.

Abstract: A micro-fluid supplying device having a gas bubble trapping function. The micro-fluid supplying device includes: a fluid supplier including a fluid having a biomaterial; a trap chamber in which a gas bubble is removed from the fluid supplied from the fluid supplier; and a fluid discharger which externally discharges a material supplied from the trap chamber. Material properties of a side wall and a bottom of an inside of the trap chamber are different from each other. The side wall has a better property of wetting with respect to the fluid supplied from the fluid supplier than the bottom.