Abstract: Provided are nanoparticles for sensing phosphate, a method for manufacturing the same, and a membrane for sensing phosphate including the same. The nanoparticles for sensing phosphate include a coordination polymer in which lanthanide metal ions and ligands are coordinated, and a polymer.

Abstract: A method of detecting bio-material includes preparing an electrode where capture structures are fixed on surface of the electrode; preparing nanoparticles where probes are fixed on surfaces of the nanoparticles; providing bio-materials on the nanoparticles so that the probes of a portion of the nanoparticles make complementary bonds with the bio-materials, respectively, to form composites, and another portion of the nanoparticles remain without making bonds with the bio-materials; and providing another portion of the remaining nanoparticles on the surface of the electrode so that the capture structures make complementary bonds with the probes of another portion of the nanoparticles, respectively, wherein each of the capture structures includes nucleotides having first sequence, each of the probes includes nucleotides having second sequence, each of the bio-materials includes nucleotides having third sequence, the first and second sequences are complementary to each other, and the second and third sequences ar

Abstract: A method of detecting bio-material includes preparing an electrode where capture structures are fixed on surface of the electrode; preparing nanoparticles where probes are fixed on surfaces of the nanoparticles; providing bio-materials on the nanoparticles so that the probes of a portion of the nanoparticles make complementary bonds with the bio-materials, respectively, to form composites, and another portion of the nanoparticles remain without making bonds with the bio-materials; and providing another portion of the remaining nanoparticles on the surface of the electrode so that the capture structures make complementary bonds with the probes of another portion of the nanoparticles, respectively, wherein each of the capture structures includes nucleotides having first sequence, each of the probes includes nucleotides having second sequence, each of the bio-materials includes nucleotides having third sequence, the first and second sequences are complementary to each other, and the second and third sequences ar

Abstract: A gas sensor includes a substrate, a pair of electrodes formed on the substrate, having a nanogap formed therebetween, and facing each other, and metal nanoparticles present in the nanogap, wherein a ligand organic single-molecule having a gas-bonding functional group and a ligand organic single-molecule having a substrate-bonding functional group are disposed on the surface of the metal nanoparticles, and wherein an organic single-molecule having a substrate-functional group bonding to the substrate-bonding functional group of the ligand organic single-molecule having a substrate-bonding functional group disposed on the surface of the metal nanoparticles is immobilized to the substrate, a method for manufacturing the gas sensor, and a use thereof.