本庆应义塾大学、日本物质及材料研究机构(NIMS)及日本群马大学于2016年6月1日宣布,以直径1 nm的碳纳米!管为模板器件!,成功制出了最小约10 nm宽的超细超导纳米线。此外还将该超导纳米线制成,成功观测到了微小超导体!呈现的特别的超导现象。通过以交联的碳纳米管为模板,使作为超导材料的氮化铌(NbN)生长,成功生成了全长数μm的连续不断的高品质!超导纳米线。氧化铌超导体具有很高的超导转移温度,被广泛应用于多种超导电子器件及光检测器等。!另外,此次在超导纳米线两端制作电极构造形成电子器件并进行了检测,观测到了巨大超导体所没有的特别的超导 The Keio University, Japan’s Institute of Materials and Materials Research (NIMS) and Japan’s Gunma University announced on June 1, 2016 that a carbon nanotube with a diameter of 1 nm was used as a template device! And a minimum of about 10 nm wide ultrafine superconducting nanowires. In addition, the superconducting nanowires were also made and the superconducting phenomenon exhibited by the superconductors was successfully observed. By using the cross-linked carbon nanotube as a template, niobium nitride (NbN) as a superconducting material is grown and a continuous high-quality superconducting nanowire of several micrometers in length is successfully produced. Niobium oxide superconductors with high superconducting transition temperature, is widely used in a variety of superconducting electronic devices and photodetectors. In addition, the electrode structure was fabricated on both ends of the superconducting nanowire to form an electronic device and the test was conducted. A special superconductor