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测速排名 今日 本周 本月

排名 域名 时间
1 WWW.79311.COM 0.42572s
2 WWW.452789.COM 0.86906s
3 WWW.7394.COM 0.90983s
4 WWW.31344.COM 0.55641s
5 WWW.577432.COM 0.69232s
6 WWW.11563.COM 0.44869s
7 WWW.9090G.COM 0.68590s
8 WWW.32033.COM 0.80554s
9 WWW.75055.COM 0.11577s
10 WWW.540765.COM 0.23513s

最新测速

域名 类型 时间
WWW.081123.COM get 0s
WWW.42111.COM get 0.31435s
WWW.28919.COM get 2.31246s
WWW.BET152.COM get 0.683233s
WWW.90722.COM get 2.592577s
WWW.8661.COM get 1.597050s
WWW.VNS18818.COM get 1.921950s
WWW.931432.COM get 1.11038s
WWW.32744.COM get 0.390145s
WWW.3508.COM ping 0.705777s

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浙江省杭州市,电动汽车正在充电。(图片来源:东方IC)

It was at Oxford that Goodenough made the groundbreaking discovery that helped him win the Nobel, UT Austin officials said in a news release.

这段话是美国著名科学喜剧电视片《生活大爆炸》主题曲的开头两句。这部电视剧虚构了谢尔顿·库珀等科研人员的生活和情感故事,将喜剧与科学糅合起来,多次获得美国电视界最高荣誉艾美奖,在全球各地广受欢迎,特别受到许多科研工作者喜爱。

诺贝尔化学奖评选委员会成员萨拉?斯诺格鲁普?林斯教授说:“这种(电动汽车)电池的重量不再是2吨,而是300公斤。锂离子电池储存来自太阳能、风能等可再生能源的能力为可持续的能源消费打开了大门。”

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\\"Lithium-ion batteries have revolutionised our lives since they first entered the market in 1991,\\" the Nobel Foundation said in a statement. \\"They have laid the foundation of a wireless, fossil fuel-free society, and are of the greatest benefit to humankind.\\"

诺贝尔化学奖评选委员会成员萨拉?斯诺格鲁普?林斯教授说:“这种(电动汽车)电池的重量不再是2吨,而是300公斤。锂离子电池储存来自太阳能、风能等可再生能源的能力为可持续的能源消费打开了大门。”

校方在新闻稿中说,正是在牛津大学期间,古迪纳夫取得了突破性的发现,帮助他获得了诺贝尔奖。

今年的物理学奖颁给了宇宙学等领域研究,正好与《生活大爆炸》片头曲的这两句相符,难怪丹尼尔松在新闻发布会现场来了这段。瑞典皇家科学院常任秘书戈兰·汉松说,这部电视剧在促进人们理解科学方面取得了“了不起的成就”,“将科学的世界带到了世界各地的笔记本电脑和起居室中”,因此在诺奖现场引用其主题曲歌词是很合适的。

97岁的约翰·B·古迪纳夫是美国得克萨斯大学奥斯汀分校机械工程系教授、著名固体物理学家,是钴酸锂、锰酸锂和磷酸铁锂正极材料的发明人,锂离子电池的奠基人之一,通过研究化学、结构以及固体电子/离子性质之间的关系来设计新材料解决材料科学问题,被业界称为“锂电池之父”。

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From laptops to smartphones, lithium-ion batteries power some of the most commonly used devices. Electric vehicles were made possible because of the development of these batteries, and wireless communication has flourished because of the technology.

Whittingham developed the first functional lithium battery in the early 1970s, but Goodenough was able to double the battery\\'s potential in 1980 by using lithium cobalt oxide as the cathode of a lithium-ion battery, the foundation said. Using Goodenough\\'s cathode as a basis, Yoshino created the first commercially viable lithium-ion battery five years later.

Born in 1922 in Jena, Germany, Goodenough earned a PhD from the University of Chicago in 1952, according to the Nobel Foundation. He went on to work at the Massachusetts Institute of Technology, then at the University of Oxford, where he served as the head of the Inorganic Chemistry Laboratory, according to the University of Texas at Austin, where he now works.

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