直播链接
邃瞳科学云APP:
http://mtw.so/5IskPJ
哔哩哔哩bilibili:
https://live.bilibili.com/h5/22307516?visit_id=7kf4yj7wywo0
邃瞳科学云视频号:
微信视频号搜索“邃瞳科学云”观看
活动简介
近年来,中澳两国的研究人员在材料、物理、化学、生物等研究领域始终保持着密切、广泛的合作。双方密切的国际合作已经取得了大量的重要研究成果,积极的促进了相关科学领域的发展。
中澳量子科学与先进材料系列讲座是由中澳学者联合会发起,北航-伍伦贡联合研究中心与邃瞳科学云承办的前沿学术交流,旨在促进中国与澳大利亚的量子科学与先进材料以及相关领域的学术交流合作,并以此次系列讲座作为一个契机给国内外的研究学者提供展示交流的平台。系列讲座将邀请多名中澳知名学者、研究人员分享最新的研究成果,传播科学知识,探讨领域研究方向。
Introduction
Swipe down to see more information
In recent years, Chinese and Australian researchers have maintained close and extensive cooperation in the fields of material science, physics, chemistry, biology and the others. The close international cooperation between the two sides has yielded a large number of important research results and actively promoted the development of relevant scientific fields.
China-Australia Quantum Science and Advanced Materials Series of Lectures are sponsored by China-Australia Scholars Federation and held by Sui Tong Science Cloud. This cutting-edge academic communication aims at promoting academic exchanges and cooperation between China and Australia in quantum science, advanced materials and other related fields.
These series of lectures, as an great opportunity, will provide a platform for further communication between domestic and foreign researchers. we will invite many renowned Chinese and Australian scholars and researchers to share the latest research results, disseminate scientific knowledge and discuss the research direction.
向下滑动查看更多活动英文介绍
讲座嘉宾
E-mail: jianglei@iccas.ac.cn
江雷,无机化学家。1965年3月生于吉林长春。1987年毕业于吉林大学物理系,1990年获该校化学系硕士学位,1994年获吉林大学博士学位。2009年当选中国科学院院士;2012年当选为第三世界科学院院士;2016年当选美国工程院外籍院士。主要学术贡献为通过学习自然,建立了超浸润界面材料及超浸润界面化学体系,引领并推动了该领域在全球的发展,成功实现了多项成果的技术转化。迄今发表SCI论文800余篇,总被引130000余次,H因子为169。获得奖项包括:2011年获得第三世界科学院化学奖;2013年获得何梁何利科学技术奖;2014年度中国科学院杰出科技成就奖;2014年获得美国材料学会奖励;2016年获联合国教科文组织纳米科技贡献奖;同年获得日经亚洲奖;2017年德国洪堡研究奖;2018年获得求是杰出科学家奖;纳米研究奖;2020年获ACS Nano Lectureship Award。
讲座摘要
生物孔道离子和分子以单链的量子方式快速传输,我们将其定义为“量子限域超流体”。近期研究表明仿生体系也存在量子限域超流现象,例如离子通道和水通道内物质的快速传输。把量子限域超流体引入能源、化学和生物等领域将产生重大影响。量子限域超流体概念作为对传统理论的挑战,将开辟量子离子学的新领域,促进能量转换材料体系的发展和应用,颠覆对神经科学和脑科学中神经信号传输等问题的理解;并将推动界面催化化学理论的发展,为化学、化工和合成生物学等领域的未来发展开辟新的道路。
关键词:量子;限域;超流;仿生
参考文献:
[2] X. Zhang, H. Liu, L. Jiang. Adv. Mater., 2019, 31, 1804508.
[3] S. Liu, X. Zhang, L. Jiang. Adv. Mater. Interfaces, 2019, 6, 1900104.
[4] X. Zhang, L. Jiang. Nano Res., 2019, 12, 1219.
[5] Y. Hao, X. Zhang, L. Jiang. Nanoscale Horiz., 2019, 4, 1029.
[6] X. Zhang, M. Antonietti, L. Jiang. Sci. China Mater., 2020, 63, 167.
[7] Y. Hao, S. Pang, X. Zhang, L. Jiang. Chem. Sci., 2020, 11, 10035.
[8] X. Zhang, B. Song, L. Jiang. CCS Chem., 2021, 3, 1258.
[9] N. Li, D, Peng, X. Zhang, Y. Shu, F. Zhang, L. Jiang, B. Song. Nano Res., 2021, 14, 40.
[10] B. Song, L. Jiang. Sci. China. Mater., 2021, https://doi.org/10.1007/s40843-021-1644-6
[11] F. Zhang, B. Song, L. Jiang. Nano Res., 2021, https://doi.org/10.1007/s12274-021-3426-8
Abstract
Swipe down to see more information
A new concept of "quantum-confined superfluid (QSF)" has been proposed for ultrafast ions and molecules transmission in biological ion channels, which are in a quantum way of single molecular or ionic chain with a certain number of molecules or ions. The biomimetic systems also exhibit QSF phenomena, such as ultrafast ions transport in artificial ion channels, and ultrahigh water flux in artificial water channels. The introduction of QSF concept in the fields of energy, chemistry and biology may create significant impact. As a challenge to the traditional theory, the concept of QSF will open up a new field of quantum ionics, promote the development and application of energy conversion material system, subvert the understanding of neural signal transmission in neuroscience and brain science, and promote the development of interfacial catalytic chemistry theory, and open up a new way for the future development of chemistry, chemical engineering and synthetic biology.
向下滑动查看更多摘要英文介绍
声明
本文仅供科研分享,不做盈利使用,如有侵权,请联系后台小编删除
“邃瞳科学云”直播服务
“邃瞳科学云"平台正在收集、整理各类学术会议信息,欢迎学会、期刊、会议组织方择优在邃瞳平台上进行线上直播,希望藉此帮助广大科研人员跨越时空的限制,实现自由、畅通地交流互动。欢迎老师同学们提供会议信息(会有礼品赠送),学会、期刊、会议组织方商谈合作,均请联系翟女士:18612651915(微信同)。
扫描二维码下载
邃瞳科学云APP
