Global EditionASIA 中文雙語Fran?ais
    China
    Home / China / Innovation

    New material may enhance electrical conduction capabilities

    By Li Wenfang in Guangzhou | China Daily | Updated: 2023-07-14 08:58
    Share
    Share - WeChat

    Chinese scientists have discovered a type of superconducting material that could lead to new applications in information technology and energy conservation technology.

    The discovery was published in the international science journal Nature on Wednesday.

    Superconductivity is a state of matter in which a material conducts electricity with no resistance. This means that no energy is lost as heat when electricity flows through a superconductor.

    The new material, a nickelate, is superconducting at a temperature of — 193 C. This is higher than for other superconducting materials.

    The discovery provides a new family of compounds to investigate superconductivity, said Wang Meng, deputy dean of the School of Physics at Guangzhou-based Sun Yat-sen University who led the research.

    This may lead to more applicable superconducting materials that could be designed and developed with the help of computing and artificial intelligence technologies, Wang said.

    More applications would become possible in fields such as information technology, engineering, industrial processing, electricity, biomedicine and transportation, he said.

    For example, if a nickelate material proves to have satisfying performance, magnetically levitated trains using it may run more steadily and carry greater loads.

    "Here I'm talking about only the known applications. As to the unknown applications, it's hard to say because technologies develop very quickly," Wang said.

    The discovery of this new material could help scientists understand the mechanism of superconductivity and develop new superconducting materials with even higher critical temperatures.

    Since the report was posted on preprint server arXiv last month, more than a dozen theoretical and experimental papers by other parties have been posted, Wang said.

    He said the team is working on high-temperature nickelate superconductors at ambient pressure and hopes to discover nickelates with higher superconductivity.

    Top
    BACK TO THE TOP
    English
    Copyright 1995 - . All rights reserved. The content (including but not limited to text, photo, multimedia information, etc) published in this site belongs to China Daily Information Co (CDIC). Without written authorization from CDIC, such content shall not be republished or used in any form. Note: Browsers with 1024*768 or higher resolution are suggested for this site.
    License for publishing multimedia online 0108263

    Registration Number: 130349
    FOLLOW US
     
    玖玖资源站中文字幕在线| 亚洲AV无码不卡在线观看下载| 国产精品无码免费专区午夜| 中文字幕av高清有码| 中文字幕人成高清视频| 日韩免费人妻AV无码专区蜜桃| 最近中文字幕完整版免费高清| 亚洲av无码一区二区三区人妖 | 精品无码久久久久久午夜| 在线天堂中文新版www| 欧美乱人伦人妻中文字幕| 亚洲?V无码乱码国产精品| 免费无码中文字幕A级毛片| 国产成年无码AV片在线韩国| 最近免费字幕中文大全视频| 亚洲中文字幕无码久久2017| 国精品无码A区一区二区| 国产乱子伦精品无码码专区| 无码中文字幕乱在线观看| 久久久久av无码免费网| 伊人久久无码精品中文字幕| 在线观看中文字幕| 好看的中文字幕二区高清在线观看| 伊人久久一区二区三区无码| 久久久久久国产精品无码下载| 成年无码av片在线| h无码动漫在线观看| 久久精品无码专区免费青青| 无码日韩精品一区二区免费| 无码乱人伦一区二区亚洲一| 亚洲精品无码乱码成人| 亚欧免费无码aⅴ在线观看| 亚洲AV成人无码久久精品老人| 无码人妻精品一区二区三区夜夜嗨| 亚洲VA中文字幕无码毛片| 一本加勒比HEZYO无码资源网 | 色偷偷一区二区无码视频| 无码超乳爆乳中文字幕久久| 精品久久久无码人妻中文字幕豆芽 | 精品视频无码一区二区三区| 精品少妇人妻av无码久久|