搜索结果: 1-15 共查到“国际动态 热学”相关记录24条 . 查询时间(2.091 秒)
New system designs nanomaterials that conduct heat in specific ways(图)
传导热量 纳米材料 计算机芯片
font style='font-size:12px;'>
2023/6/6
清华大学美术学院邱松教授主持的项目《基于热传导研究的综合能源方案设计》入选英国牛顿奖项目国际研讨会暨项目展览(图)
基于热传导研究的综合能源方案设计 英国牛顿奖 国际研讨会
font style='font-size:12px;'>
2022/7/29
2022年7月15日,由英国诺桑比亚大学(Northumbria University)设计学院主办的题为“用先进技术和服务让城乡发展更加融合”国际研讨会暨牛顿奖项目展览(International workshop on"Better Integration of Urban and Rural Development with Advanced Technologies and Service...
广西大学物理科学与工程技术学院博士研究生梁继升等人与导师在国际顶级期刊《Advanced Energy Materials》发表文章(图)
热能 电能 转换 热电材料 载流子
font style='font-size:12px;'>
2022/6/28
近日,广西大学物理科学与工程技术学院2020级博士研究生梁继升等人与导师苗蕾在国际顶级期刊《Advanced Energy Materials》(中科院一区TOP期刊,2021年影响因子29.368)上发表题为“Synergistic effect of band and nanostructure engineering on the boosted thermoelectric perform...
Why boiling droplets can race across hot oily surfaces(图)
量化 微流体装置 传热系统
font style='font-size:12px;'>
2023/6/19
据物理学家组织网21日报道,一个由爱尔兰都柏林三一学院理论物理学家领导的国际团队,建造了世界上最小的发动机——单个钙离子,其体积仅为汽车发动机的100亿分之一。这种设备未来可被纳入其他技术,回收余热,从而提高能源效率。
中国科学院上海硅酸盐研究所陈立东研究员当选国际热电学会(ITS)理事(图)
中国科学院上海硅酸盐研究所 陈立东 研究员 国际热电学会 ITS 理事
font style='font-size:12px;'>
2018/7/18
2018年7月4日,在法国卡昂举行的第37届国际热电大会暨第16届欧洲热电年会上,中国科学院上海硅酸盐研究所陈立东研究员当选为国际热电学会(International Thermoelectric Society,ITS)理事(board member)。国际热电学会是国际热电研究领域最重要的学术组织,理事由来自美、日、法、德、韩、中等多个国家的13名科学家组成。每届任期3年,此次是陈立东研究员第...
New device could turn heat energy into a viable fuel source(图)
new device turn heat energy viable fuel source
font style='font-size:12px;'>
2017/9/19
A new device being developed by Washington State University physicist Yi Gu could one day turn the heat generated by a wide array of electronics into a usable fuel source.The device is a multicomponen...
How do you build a metal nanoparticle?
build metal nanoparticle
font style='font-size:12px;'>
2017/7/24
Although scientists have for decades been able to synthesize nanoparticles in the lab, the process is mostly trial and error, and how the formation actually takes place is obscure. However, a study re...
Spontaneous System Follows Rules of Equilibrium(图)
Spontaneous System Follows Equilibrium
font style='font-size:12px;'>
2017/7/24
Scientists have long known the ins and outs of equilibrium thermodynamics. Systems in equilibrium — a stable state of unchanging balance — are governed by a neat set of rules, making them predictable ...
纳米技术提高热电转换效率
纳米技术 热电转换效率 NanoHiTEC技术 赛贝克效应
font style='font-size:12px;'>
2017/1/9
如何将大量汽车尾气排放的废弃热量高效转化为有用的电能,成为欧盟第七研发框架计划(FP7)的研究课题。欧盟为此提供375万欧元资助,总研发投入530万欧元,由列支敦士登、德国、法国、意大利、西班牙、奥地利和瑞士7个国家及14家纳米材料企业联合组成欧洲NanoHiTEC技术攻关团队。根据赛贝克效应,当2种不同温度的物质材料相互接触时,接触面存在电荷扩散流动,会在物质材料两端产生电压,反之亦然。纳米结构...
New form of crystalline order holds promise for thermoelectric applications(图)
thermoelectric applications crystalline
font style='font-size:12px;'>
2014/12/1
Since the 1850s scientists have known that crystalline materials are organized into 14 different basic lattice structures. However, a team of researchers from Vanderbilt University and Oak Ridge Natio...
The Arctic ground squirrel sheds light on circadian rhythms
circadian rhythms ground squirrel sheds
font style='font-size:12px;'>
2014/12/1
This species' ability to adapt to constant daylight may ultimately help answer questions about human sleep disorders and other health problems
The Arctic ground squirrel has developed highly speciali...
Outsmarting thermodynamics in self-assembly of nanostructures(图)
nanostructures Outsmarting thermodynamics
font style='font-size:12px;'>
2014/12/2
If you can uniformly break the symmetry of nanorod pairs in a colloidal solution, you’re a step ahead of the game toward achieving new and exciting metamaterial properties. But traditional thermodynam...
Sleeping sands of the Kalahari awaken after more than 10,000 years(图)
Kalahari awaken Sleeping
font style='font-size:12px;'>
2014/12/1
The name conjures an arid, almost lifeless expanse, its red, iron oxide sands stretching to the horizon and beyond.
Kgala, Tswana natives called it, the great thirst. Kgalagadi, it's also named: the...
新型石墨烯晶体管实现高开关比率
石墨烯晶体管 高开关比率
font style='font-size:12px;'>
2013/1/24
据物理学家组织网2013年1月23日(北京时间)报道,英国曼彻斯特大学的科研人员设计出一种新型石墨烯晶体管,在其中电子可借助隧穿和热离子效应,同时从上方和下方穿越障碍,并在室温下展现出高达1×106的开关比率。