院士周志炎

姓名:周志炎荣誉:中国科学院南京地质古生物研究所研究员,中国科学院院士出生年月:1933年1月11日籍贯:浙江海宁教育状况:1954年毕业于南京大学;1961年中科院南京地质古生物所研究生毕业业余爱好(举例说明):围棋、阅读,球类和太极拳     

智慧开创功能晶体先河——小记著名晶体材料科学家、中国科学院院士蒋民华

蒋民华,著名晶体材料科学家,中国科学院院士.1935年8月16日出生,浙江临海人,1956年毕业于山东大学化学系.     

钱三强小传

正钱三强,1913年10月16日生于浙江湖州,核物理学家,中国原子能科学事业的创始人,中国"两弹一星"元勋,中国科学院院士。1932年毕业于北京大学预科。1936年毕业于清华大学。1946年底荣获法国科学院亨利·德巴微物理学奖。1948年后,任清华大学物理系教授,中国科学院副院长兼浙江大学校长,中国科协副主席、名誉主席,中国物理学会副理事长、理事长。     

吴文俊

<正>吴文俊,1919年5月12日出生于上海,祖籍浙江嘉兴,数学家,中国科学院院士,中国科学院数学与系统科学研究院研究员,系统科学研究所名誉所长。吴文俊毕业于交通大学数学系,1949年,获法国斯特拉斯堡大学博士学位;1957年,当选为中国科学院学部委员(院士);1991年,当选第三世界科学院院士;2001年2月,获2000年度国家最高科学技术奖。     

台州院士之家

正"台州院士之家"是首批"浙江院士之家"试点之一,在建设布局上突出"一总部多基地全覆盖",以仙居神仙氧吧基地为总部,三门蛇蟠岛和温岭石塘基地南北呼应,并在各县市区分别选点作为子基地。总部仙居神仙氧吧基地配置了600多平米的院士接待中心和5000多平米的独立活动区域。自试点启动以来,"台州院士之家"以打造院士专家技术创新"策源地"、科技创新成果转化"试验地"、经济社会发展高端人才"集聚地"为目标,制定出台了《"台州院士之家"及院士专家合作项目专项资金管理办法(试行)》,依托"台州院士之家"邀请了11位院士参加2019台州国际人才合作洽谈大会,举办了台州市重点产业(领域)院士专家战略咨询会。     

科学中国人2006年度人物 吴文俊院士

<正>吴文俊,1919年5月12日出生于上海,祖籍浙江嘉兴,数学家,中国科学院院士,中国科学院数学与系统科学研究院研究员,系统科学研究所名誉所长。吴文俊毕业于交通大学数学系,1949年,获法国斯特拉斯堡大学博士学位;1957年,当选为中国科学院学部委员(院士);1991年,当选第三世界科学院院士;2001年2月,获2000年度国家最高科学技术奖。     

企业院士联姻：科技创新“发动机”——台州已建7家院士专家工作站，年内争破10家

劳动力成本上升,原材料价格上涨,财务成本增加,企业迫切寻求转型升级的途径,这就是民营企业的现状。对此,台州籍中科院院士闻邦椿曾说,台州的民营企业,想要在市场中站稳脚跟,就要用高新技术武装自己。本地科研单位少,企业科研力量薄弱,高新技术怎么找？院士专家工作站能解决这问题。     

院士寄语

路甬祥(1942.6.11—)汉族,浙江宁波慈溪人。流体传动与控制专家。中国科学院院士、中国工程院院士。1964年毕业于浙江大学机械工程系。1979年获联邦德国洪堡研究奖学金,1981年获联邦德国亚琛大学工程博士学位。1988年2月任浙江大学校长。1986年至1996年兼任中国科协副主席、国际继续工程教育协会副主席。1993年12月起任中国科学院     

科学中国人重点作者介绍

路甬祥,中国科学院院士,中国工程院院士。十一届全国人大常委会副委员长。1942年4月生,浙江慈溪人,1964年毕业于浙江大学机械工程系水力机械专业,联邦德国亚琛工业大学机械系液压气动研究所研修,研究生学历,博士学位,教授。历任浙江大学机械工程系讲师、研究室主任、副教授,校科学技术研究     

致力海洋监测 探寻水声奥秘——中科院院士李启虎

李启虎。水声信号处理和声呐设计专家,浙江温州市人,出生于1939年,1963年毕业于北京大学数学力学系,中国科学院声学研究所研究员,1997年当选为中国科学院院士。李启虎院士长期从事信号处理理论和声呐设计、研制工作。结合我国浅海声传播的特点,创造性地应用信息论、数字信号处理、水声工程等理论,解决了一系列水声信号处理中的问题,为我国水声技术的发展作出了贡献。     

校企合作中高校如何避免人才流失

随着社会的发展,知识和经济结合得越来越紧密。象征实现学术抱负和追求经济效益的高度统一体的多种校企合作模式就是两者紧密结合的产物。高校和企业通过校企合作达到各自的目标,但是日益严重的高校人才流失阻止了校企的进一步合作,并给高校带来了严重的损失。本文分析了人才流失给高校带来的损失,高校人才的去向,高校人才流向企业的原因,并提出了两种解决方案。要达到在一个长时间段内保持低水平的人才流失率,高校需双管齐下。     

Serendipity: Towards a taxonomy and a theory

Serendipity, the notion of researchers making unexpected and beneficial discoveries, has played an important role in debates about the feasibility and desirability of targeting public R&D investments. The purpose of this paper is to show that serendipity can come in different forms and come about in a variety of ways. The archives of Robert K Merton, who introduced the term to the social sciences, were used as a starting point for gathering literature and examples. I identify four types of serendipity (Walpolian, Mertonian, Bushian, Stephanian) together with four mechanisms of serendipity (Theory-led, Observer-led, Error-borne, Network-emergent). I also discuss implications of the different types and mechanisms for theory and policy.     

植物学家和人文主义者胡先骕

本文概述了植物分类学家胡先骕在发现植物新种水杉中的贡献;他在上世纪五十年代批判李森科,倡导摩尔根遗传学说的动因,及其科学、人文背景;最后,作为新文化运动中《学衡》派主力和唯一的科学家,本文对他的新人文主义思想做一简介和评述。     

Making a hydrophoretic focuser tunable using a diaphragm

Microfluidic diagnostic devices often require handling particles or cells with different sizes. In this investigation, a tunable hydrophoretic device was developed which consists of a polydimethylsiloxane (PDMS) slab with hydrophoretic channel, a PDMS diaphragm with pressure channel, and a glass slide. The height of the hydrophoretic channel can be tuned simply and reliably by deforming the elastomeric diaphragm with pressure applied on the pressure channel. This operation allows the device to have a large operating range where different particles and complex biological samples can be processed. The focusing performance of this device was tested using blood cells that varied in shape and size. The hydrophoretic channel had a large cross section which enabled a throughput capability for cell focusing of ∼15 000 cells s⁻¹, which was more than the conventional hydrophoretic focusing and dielectrophoresis (DEP)-active hydrophoretic methods. This tunable hydrophoretic focuser can potentially be integrated into advanced lab-on-a-chip bioanalysis devices.     

From a single network to a network of networks

Network science has atracted much atention in recent years due to its interdisciplinary applications. We witnessed the revolution of network science in 1998 and 1999 started with small-world and scale-free networks having now thousands of high-proile publications, and it seems that since 2010 studies of‘network of networks'(NON), sometimes called multilayer networks or multiplex, have atracted more and more atention. he analytic framework for NON yields a novel percolation law for n interdependent networks that shows that percolation theory of single networks studied extensively in physics and mathematics in the last 50 years is a speciic limit of the rich and very diferent general case of n coupled networks. Since then, properties and dynamics of interdependent and interconnected networks have been studied extensively, and scientists are inding many interesting results and discovering many surprising phenomena. Because most natural and engineered systems are composed of multiple subsystems and layers of connectivity, it is important to consider these features in order to improve our understanding of such complex systems. Now the study of NON has become one of the important directions in network science.In this paper, we review recent studies on the new emerging area—NON. Due to the fast growth of this ield, there are many deinitions of diferent types of NON, such as interdependent networks,interconnected networks, multilayered networks, multiplex networks and many others. here exist many datasets that can be represented as NON, such as network of diferent transportation networks including light networks, railway networks and road networks, network of ecological networks including species interacting networks and food webs, network of biological networks including gene regulation network,metabolic network and protein–protein interacting network, network of social networks and so on. Among them, many interdependent networks including critical infrastructures are embedded in space, introducing spatial constraints. hus, we also review the progress on study of spatially embedded networks. As a result of spatial constraints, such interdependent networks exhibit extreme vulnerabilities compared with their non-embedded counterparts. Such studies help us to understand, realize and hopefully mitigate the increasing risk in NON.     

抓好一项活动 培育一种品质 成就一生精彩

我们学校全体师生齐心协力,锐意进取,从学生最喜欢的活动抓起,从教育最基本的积累开始,关注细节,培育做人做事的品质,努力为学生的一生精彩奠基,取得了积极的成效。