Abstract: A high-density micro-chamber array has a translucent flat substrate, a hydrophobic layer in which a plurality of micro-chambers are provided, and a lipid bilayer membrane formed in each of the openings of the micro-chambers, wherein an electrode is provided in each of the micro-chambers, and when the side of the substrate on which the hydrophobic layer is provided is directed upward, the micro-chamber array is configured such that with at least one of the following A) and B) being met, light entering the substrate from below is transmitted through the substrate and penetrates into the micro-chambers' interiors, and light entering the substrate from the micro-chambers' interiors is transmitted through the substrate and escapes toward below the substrate. A) The electrode is provided on an inner side surface of each of the micro-chambers. B) The electrode is transparent and provided on a bottom surface of each of the micro-chambers.

Abstract: A method for forming a lipid membrane vesicle includes: filling a chamber with a first aqueous solution by introducing it to a liquid flow path facing a microreactor chip hydrophobic layer main surface; forming a first lipid monolayer membrane in an opening part of the chamber filled with the solution; forming a second lipid monolayer membrane on a layer interface of the organic solvent formed on the main surface of the hydrophobic layer with a second aqueous solution by introducing the solution to the liquid flow path; allowing a first aqueous solution form in the chamber to alter to a spherical droplet covered with the first lipid monolayer membrane; and forming a lipid membrane vesicle by moving the droplet to a position of the second lipid monolayer membrane by applying a physical action, and by zipping the first lipid monolayer membrane covering the droplet and the second lipid monolayer membrane.

Abstract: A microreactor chip includes a substrate and a hydrophobic layer that is a layer provided on the substrate and made of a hydrophobic substance and is formed so that openings of a plurality of chambers are arranged regularly on a main surface of the layer. Each chamber is provided with a first lipid bilayer membrane and a second lipid bilayer membrane that are disposed with a gap therebetween in a depth direction so as to fractionate the chamber in the depth direction.

Abstract: A high-density micro-chamber array has a translucent flat substrate, a hydrophobic layer in which a plurality of micro-chambers are provided, and a lipid bilayer membrane formed in each of the openings of the micro-chambers, wherein an electrode is provided in each of the micro-chambers, and when the side of the substrate on which the hydrophobic layer is provided is directed upward, the micro-chamber array is configured such that with at least one of the following A) and B) being met, light entering the substrate from below is transmitted through the substrate and penetrates into the micro-chambers' interiors, and light entering the substrate from the micro-chambers' interiors is transmitted through the substrate and escapes toward below the substrate. A) The electrode is provided on an inner side surface of each of the micro-chambers. B) The electrode is transparent and provided on a bottom surface of each of the micro-chambers.