三、教研优势
1.概况及发展愿景
Our vision
Fundamental knowledge generated through research broadens our rich culture and gives us an important basis for developing innovative products and services and for deciding how we should structure our societyPushing the boundaries,Researchers at our University carry out top-level research that makes significant contributions to a safe, healthy, sustainable, prosperous and just world. Innovations emerge from scientific research that aims to make the unknown known and to push the boundaries of existing fields of research.Freedom to excel.Leading scientists shape our research fields and are given the freedom and the resources they need to excel in their field. Time and again they prove their prominent position in their field of research and are an example to our students. It is through our eminent scholars that Leiden University has a good position in four leading international rankings and in achieving individual subsidies and prizes for scientists: Spinoza prizes, awards from the European Research Council (ERC), subsidies from the Innovational Research Incentive Scheme (NWO) and Academy professors.Integration of teaching and research.Our teaching and research are closely interwoven. This means that our students are not only trained as researchers, they also learn to take a critical academic approach to issues, a skill that will serve them well in their future professional practice.Disciplinary and interdisciplinary research.Our research has a solid disciplinary basis across a broad range of scientific fields. From this basis, our researchers carry out both disciplinary and interdisciplinary research. They have close ties with society and draw inspiration from scientific and societal questions about the future, that they translate into fundamental research questions.The University is keen to promote an interdisciplinary mindset among its researchers and students. It has chosen to focus on 11 research profile areas, and encourages a high level of collaboration across these different fields.International collaboration.All researchers at Leiden University are members of extensive international networks. The University regards this form of collaboration as essential for the development of new scientific ideas. But partnerships are not limited to our researchers. In 2002, for example, Leiden was one of the founders of the League of European Research Universities (LERU), an organisation that aims to promote the interests of fundamental research. LERU has 21 members, all of which are leading European universities. Besides this, we have many other partnerships with universities and research nstitutions spread throughout the world.Leiden academics research the world around us and pass on their knowledge to future generations. Each with his or her individual expertise and personal fascination for a particular discipline they are the public face of the University.Leading academics shape our fields of research and are given the scope and the resources to excel. Time and again they demonstrate their prominent position in world research and are an example to our students. The presence of these leading academics gives Leiden University a good position in international rankings and in personal scientific subsidies and prizes. Our academics feature strongly in the Spinoza Prizes, subsidies awarded by the European Research Council (ERC), Innovation Incentives from NWO and Academy Professorships at KNAW.
莱顿学者研究我们周围的世界,将他们的知识传授给子孙后代。每个人都有他或她个人的专业知识和对特定学科的个人魅力,他们就是这个大学的公众面孔。领先的学者塑造了我们的研究领域,并赋予其优势的范围和资源。他们一再表现出他们在世界研究中的突出地位,成为我们学生的榜样。这些领先学者的出现使莱顿大学在国际排名和个人科学补贴和奖励方面处于良好地位。我们的学术界的学院教授获得了斯宾诺莎奖、欧洲研究委员会(ERC)颁发的补贴、NWO的创新奖励和KNAW。我们的愿景是通过研究产生的基础知识扩大了我们丰富的文化,为开发创新产品和服务,决定如何构建社会做出了重要贡献。推动边界:我们大学的研究人员进行了高水平的研究为安全、健康、可持续、繁荣和公正的世界作出了重大贡献。科学研究出现了创新,旨在使未知的知名度和推动现有研究领域的边界。自由擅长:领先的科学家塑造了我们的研究领域,并获得了他们所需要的自由和资源。一次又一次地证明了他们在研究领域的突出地位,并且是我们学生的榜样。通过我们的杰出学者,莱顿大学在四大国际领先优势中取得了良好的地位,为科学家们提供了个人补贴和奖金:斯宾诺莎奖、欧洲研究委员会(ERC)的奖项、创新研究奖励计划的补贴)。整合教学与研究:我们的教学和研究密切相关。这意味着我们的学生不仅被培养为研究人员,而且还学习采取关键的学术方法来解决问题,这将有助于他们未来的专业实践。纪律和跨学科研究:我们的研究在广泛的科学领域有着坚实的学科基础。在此基础上,我们的研究人员进行了学科和跨学科研究。他们与社会有密切的联系,并从科学和社会的未来问题中获得灵感,将其转化为基础研究问题。大学热衷于促进其研究人员和学生之间的跨学科观念。它选择专注于 11个研究概况领域,并鼓励在这些不同领域进行高水平的协作。国际合作:莱顿大学的所有研究人员都是广泛的国际网络的成员。大学认为这种合作形式对于发展新的科学观念至关重要。但合作伙伴并不仅限于我们的研究人员。例如,2002年,莱顿是欧洲研究大学联盟(LERU)的创始人之一 ,该组织旨在促进基础研究的兴趣。LERU拥有21个成员,所有这些都是欧洲领先的大学的学生。除此之外,我们还与全球各地的大学和研究机构建立了许多合作伙伴关系。
2.完备的研究设施
BioMedical Metabolomics Facility Leiden
ApplicationThe BioMedical Metabolomics Facility Leiden (BMFL) offers a highly structured environment for advanced metabolomics studies. BMFL builds on fully validated, state-of-the-art platforms that each cover a part of the human metabolism and together span the complete human metabolome.AvailabilityBMFL is particularly geared towards biomarker discovery of human disease and health.BMFL works according to ISO17025 guidelines and employs rigorous quality standards, working with well validated methods and using our quality control pipeline which provides correction for analytical variation, data monitoring by means of quality control reports and data standardization. This ensures robust data that enables truly comparative studies.ContactAmy HarmsBMFL is the core facility of Leiden University and the Netherlands Metabolomics Centre (NMC) and its users include internal as well as external academic collaborators and pharmaceutical and industrial clients from all over the world, measuring over 15,000 profiles annually. BMFL does not only perform routine measurements, but operates at the frontier of metabolomics developments and opportunities. The BMFL team covers the complete track from involvement in experimental design, study set-up and sample collection to the actual measurements, data analysis, identification of unknown compounds and comprehensive feedback on the results. In close collaboration with partners, BMFL defines a tailor-made approach that offers the best fit between your biological question and optimal use of the potential of our highly advanced facilities.
研究生物医学代谢学设施
应用生物医学代谢组学设施莱顿(BMFL)为高级代谢组学研究提供了高度结构化的环境。BMFL建立在完全验证的最先进的平台上,每个平台都覆盖了人类新陈代谢的一部分,并跨越了完整的人代谢素。可用性BMFL特别适用于人类疾病和健康的生物标志物发现。BMFL根据ISO17025指导原则,采用严格的质量标准,使用经过验证的方法,并使用我们的质量控制管道,通过质量控制报告和数据标准化进行分析变化,数据监控。这确保了强大的数据,使真正的比较研究。联系艾米哈姆斯BMFL是莱顿大学和荷兰代谢组学中心(NMC)的核心工具,其用户包括来自世界各地的内部以及外部学术合作者和制药和工业客户,每年测量超过15,000份配置文件。BMFL不仅执行常规测量,而且在代谢组学发展和机会的前沿运作。BMFL团队涵盖了参与实验设计,研究设置和样品采集到实际测量、数据分析、未知化合物鉴定和对结果的全面反馈的完整轨迹。BMFL与合作伙伴密切合作,定义了一种量身定制的方法,可以最佳地适应您的生物学问题,并最大限度地利用我们高级设备的潜力。
Cell Observatory
ApplicationAt the Cell Observatory we visualize the dynamic structures of life - from molecule to cell to organism -with the ultimate goal to tackle disease, for instance to reduce the spread of cancer and develop new medicines for tuberculosis. The development of new medicines is one of the core efforts of Leiden University.AvailabilityInformation about the instruments and contact can be found via the portal 'Open Access Research Infrastructure' (OARI)LocationScience CampusEinsteinweg 552333 CC LeidenContactAnnemarie MeijerThe Cell Observatory houses cutting-edge bio imaging technology and other facilities, aimed at visualizing the dynamic structures of life - from molecule to cell to organism. It is located in the new Gorlaeus building and serves as a meeting place and shared facility for scientists from different institutes of the Faculty of Science, fostering interdisciplinary collaboration. The goal of research at the Cell Observatory is to visualize and comprehend the dynamics of the living cell down to the molecular level, because understanding of these fundamental mechanisms of life is essential for progress in tackling disease. It encompasses one of the core scientific profiles of Leiden University
细胞观察台
应用:在细胞观察站,我们可视化生命的动态结构 - 从分子到细胞到生物体,最终目标是解决疾病,例如减少癌症的传播并开发新的结核病药物。新药开发是莱顿大学的核心工作之一。可用性有关仪器和联系的信息可以通过门户网站“开放接入研究基础设施”(OARI)。
位置:科学园、Einsteinweg 55。Annemarie Meijer细胞观察站拥有尖端的生物成像技术和其他设施,旨在可视化生命的动态结构 - 从分子到细胞到有机体。它位于新的Gorlaeus大楼,作为科学院不同机构科学家的会议场所和共享设施,促进跨学科合作。细胞观察站的研究目标是将活细胞的动力学视觉化和理解为分子水平,因为了解这些基本生命机制对于治疗疾病的进展至关重要。它包含莱顿大学的核心科学概况之一。
Cloning & Purification Facility
Location:Science Campus,Einsteinweg 55,2333 CC Leiden.The Cloning and Protein purification Facility (CPF) provides expertise and assistance in molecular biology techniques. We train and help researchers, BSc and MSc students of the Leiden Institute of Chemistry with their research projects including:Constructions of plasmid clones, mutants, fusion constructs etc.Construction of specific E.coli strains.Protein production in E.coli.In vitro (cell free) protein production.Centrifugation instructions.Protein purifications.Development of enzymatic assays.Analysis of protein-DNA interactionsCloning.We can help with the design of expression plasmids to overproduce your gene of interest in E.coli. We have a large collection of vector plasmids for the generation of fusion constructs with different types of tags (GST/His/MBP/Chitin/Trx/DsbA) to facilitate the purification and/or solubility of the protein. Genes can be isolated via PCR or can be designed for De Novo gene synthesis (in collaboration with BaseClear).Cloning procedures involve classical Restriction Enzyme digestion/ ligation and Gibson assembly. Desired mutations can be introduced in the gene of interest using site-directed mutagenesis.The facility has a large collection of Restriction Enzymes, polymerases, ligase, kinase etc. permanently in stock as well as kits for plasmid isolations and DNA purifications.Protein Expression and Purification.The facility has a large collection of E.coli strains for protein expression. Upon request additional mutations can be introduced in the production strain. E.coli cells can be cultured on small and large scale at different temperatures. Upon request proteins can also be produced in a cell-free system.For the protein purifications the CPF houses 2 Äkta Starts and 1 Äkta purifier. If desired the tag can subsequently be removed from the protein of interest using proteases. Different methods to improve the solubility of the protein are available. Protein concentrations can be determined using the Bradford assay, the BCA assay or using the Qubit.We can also store the purified proteins in a safe way for future use.
Locations:The CPF is located in the renovated part of the LMUY building in the Gorlaeus Lab. The department has two labs, one is dedicated for cloning and DNA manipulations (room 03.30), the other (room 03.34) for protein purification and biochemistry.The facility also houses a D-lab (03.24) for the analysis of 32P-labeled samples and a dark room (03.38) to facilitate work with light sensitive labels.When needed the Facility provides a working place in one of the offices where you have wireless access via the university provided networks. In our shared room you can meet the other CPF participants and exchange ideas.
Contact:Centrifugation
Beckman Coulter Ultracentrifuge Optima L90K with fixed angle rotors 70.1 Ti and 70 Ti and swing out SW41 rotor.Sorvall RC6plus with Fiberlite F10-6x500y (500 ml) F13-14x50cy (50 and 15 ml), SS-34 (50 and 12 ml) rotors.Tabletop centrifuge Eppendorf 5810 with swing out A-62 rotor, in cold room, 3220xgTabletop centrifuge Eppendorf 5702 with swing out rotor A4-38, 3000xg.Tabletop centrifuge Heraeus 1S-R with swing out rotor TTH400, with cooling, 4618xgEppendorf Minispin with PCR-strip rotor F-55-16-5-PCR.Eppendorf 5424 with FA-45-24-11 rotor (1.5 and 2.0 ml), 20.000xg.Eppendorf 5430R, with FA-45-24-11 HS rotor (1.5 and 2.0 ml), with cooling, 30.000xg,Protein purification.GE Healthcare Äkta Start 2x.Amersham Pharmacia Äkta Explorer.Pharmacia Gradifrac 2x.Circulation cooler Prolabo F250 2x.Sonics Vibracell VCX 750: tapered microtip (3 mm) and replaceable tip (13 mm).Electrophoresis.BioRad PowerPac Basic and 3000 power supplies.BioRad Mini-Protean Tetra Cell: acrylamide mini gels (vertical).Hoefer Mighty Small: acrylamide mini gels (vertical).Horizontal electrophoresis units small, midi and large (Agarose gels).Vertical electrophoresis adjustable single sequencer 20-42 cm SU-400-20 (CBS Scientific): long (denaturing) acrylamide gels.Culturing.Infors HT Ecotron and Minitron dry shakers (temperature range 15 – 40 °C).Gyrotory waterbath shakers (New Brunswick).DNA manipulations.T100 Thermal cycler 2x (BioRad).Eppendorf concentrator 5301.Radioactive 32P labeling (D-Lab and B-lab).Quantification protein/DNA.Qubit Quantitation (Life technology).Eppendorf Biophotometer (BioRad assay, BCA assay, A260, A280).ChemiDoc XRS and GS-800 densitometer (BioRad): UV (EtBr gels)-80 C storage for bacterial strains and purified proteins.VIP U101 tabletop freezer (New Brunswick).Thermo ultra low floor model freezer.
克隆和净化设施
位置:科学园、Einsteinweg 55、2333 CC莱顿。
克隆和蛋白质纯化设备(CPF)为分子生物学技术提供专业知识和帮助。我们培训和帮助莱顿化学研究所的研究人员,理学学士和硕士生学习他们的研究项目,包括:质粒克隆,突变体,融合构建体等的构建、特定大肠杆菌菌株的构建、蛋白质生产在大肠杆菌中、体外(无细胞)蛋白质生产、离心指示、蛋白质纯化、酶分析的开发、蛋白质 - DNA相互作用分析。
克隆:我们可以帮助设计表达质粒来过量产生大肠杆菌感兴趣的基因。我们有大量的载体质粒,用于产生具有不同类型标签(GST / His / MBP / Chitin / Trx / DsbA)的融合构建体,以促进蛋白质的纯化和/或溶解度。基因可以通过PCR分离,也可以设计用于De Novo基因合成(与BaseClear合作)。克隆程序涉及经典限制酶消化/结扎和吉布森装配。可以使用定点诱变将期望的突变引入感兴趣的基因。该设施具有大量的限制性酶,聚合酶,连接酶,激酶等等,并且可用于质粒分离和DNA纯化。
蛋白质表达和纯化:该设施具有大量的用于蛋白质表达的大肠杆菌菌株。根据要求,可以在生产菌株中引入另外的突变。大肠杆菌细胞可以在不同温度下大规模培养。根据要求,蛋白质也可以在无细胞系统中生产。对于蛋白质纯化,CPF拥有2个ÄktaStarts和1个Äkta净化器。如果需要,随后可使用蛋白酶将标签从感兴趣的蛋白质中去除。提供了改善蛋白质溶解度的不同方法。可以使用Bradford测定法,BCA测定法或使用Qubit测定蛋白质浓度。我们也可以以安全的方式将纯化的蛋白质储存在将来使用中。
地点:CPF位于Gorlaeus实验室的LMUY大楼的翻新部分。该部门有两个实验室,一个专门用于克隆和DNA操纵(03.30室),另一个(03.34室)用于蛋白质纯化和生物化学。该设施还设有一个D-Lab(03.24),用于分析32P标记的样品和一个暗室(03.38),以便于使用光敏标签。当需要时,该设施在您通过大学提供的网络进行无线接入的办公室之间提供工作场所。在我们共享的房间里,您可以见到其他CPF参与者和交流想法。
仪器
离心:Beckman Coulter超速离心机Optima L90K带固定角度转子70.1 Ti和70 Ti并摆出SW41转子。Sorvall RC6plus与Fiberlite F10-6x500y(500 ml)F13-14x50cy(50和15 ml),SS-34(50和12 ml)转子。台式离心机Eppendorf 5810摆出A-62转子,在寒冷的房间,3220xg。台式离心机Eppendorf 5702,摆出转子A4-38,3000xg。台式离心机Heraeus 1S-R带摆出转子TTH400,冷却,4618xg。Eppendorf Minispin带有PCR-strip转子F-55-16-5-PCR。具有FA-45-24-11转子(1.5和2.0ml)的Eppendorf 5424,20.000xg。ppendorf 5430R,配有FA-45-24-11 HS转子(1.5和2.0 ml),冷却,30.000xg
蛋白质纯化:GE HealthcareÄkta启动2xAmersham PharmaciaÄktaExplorer、Pharmacia Gradifrac 2x循环冷却器Prolabo F250 2x、Sonics Vibracell VCX 750:锥形微尖端(3 mm)和可更换尖端(13 mm)
电泳:BioRad PowerPac Basic和3000电源、BioRad Mini-Protean Tetra细胞、丙烯酰胺迷你凝胶(垂直)、Hoefer Mighty Small:丙烯酰胺迷你凝胶(垂直)、水平电泳单元小,中,大(琼脂糖凝胶)、垂直电泳可调单序列器20-42厘米SU-400-20(CBS科学):长(变性)丙烯酰胺凝胶。
培养:Infors HT Ecotron和Minitron干燥机(温度范围15 - 40°C)、Gyrotory水壶(新不伦瑞克)、DNA操作、T100热循环仪2x(BioRad)、Eppendorf集中器5301、放射性32P标签(D-Lab和B-lab)、定量蛋白/ DNA、Qubit定量(生命技术)、Eppendorf生物光度计(BioRad测定,BCA测定,A260,A280)、ChemiDoc XRS和GS-800密度计(BioRad):UV(EtBr凝胶)、-80℃储存用于细菌菌株和纯化蛋白质、VIP U101桌面冰柜(新不伦瑞克)、热超低地板模型冷柜。
3.重点研究领域
Asian Modernities and Traditions
The research profile ‘Asian Modernities and Traditions’ (AMT) aims to raise the strength and visibility of research, teaching and dissemination of Asian studies at Leiden University. The University’s Executive Board has decided to continue the Leiden University profile area Asian Modernities and Traditions for another four years 2015-2018. AMT2 commits itself to achieve by 2018 demonstrable results in enhancing the visibility of Asian research both within and outside the academic world, strengthened cooperation between Leiden faculties and institutes in terms of research, impact (valorisation) and teaching, the attraction of new grants or gifts for Asia research, impact activities and teaching, and the development of new courses in Asia studies, especially at the postgraduate (MA and PhD) level.
研究领域一:亚洲现代与传统
“亚洲现代与传统”(AMT)的研究成果旨在提高莱顿大学研究,教学和传播亚洲研究的实力和知名度。大学执行委员会决定继续实施莱顿大学的“亚洲现代与传统”概况。AMT2致力于到2018年实现明显的成果,提高学术界内外亚洲研究的知名度,加强莱顿学院与研究所之间在研究,影响(价值)和教学方面的合作,吸引新的捐赠或捐款亚洲研究,影响活动和教学,以及亚洲研究新课程的开发,特别是研究生(硕士和博士)。
Bioscience: the science base of health
Recent developments in life sciences have created exciting possibilities for fundamental research as well as clinical applications. Knowledge about the genome of humans and model organisms, and techniques to manipulate genes and their expression allow for an unprecedented degree of control over biological processes, yielding new insights into the working mechanisms of cells, organs and organisms. Powerful new imaging techniques, both at macroscopic, microscopic and sub-cellular level, make it possible to track key processes and substances (biomarkers) over time.
研究领域二:生物科学,健康的科学基础
生命科学的最新发展为基础研究和临床应用创造了令人兴奋的可能。关于人类和模型生物的基因组的知识,以及操纵基因及其表达的技术允许对生物过程进行前所未有的程度的控制,为细胞,器官和生物体的工作机制产生新的见解。在宏观、微观和亚细胞水平上的强大的新成像技术使得有可能跟踪关键过程和物质(生物标志物)随着时间的推移。
Brain function and dysfunction over the lifespan
This research profile area brings together the cognitive and the biomedical neurosciences in a unique multidisciplinary setting, studying brain function and dysfunction in the developing brain, the adult brain and the ageing brain. The underlying belief is that anyone wanting to know why something in the brain goes wrong first has to know what normal brains look like and how they function.We study subjects ranging from language processing to cognitive robotics, and from migraine to psychiatric disorders and neuro-pharmacology.
研究领域三:脑功能和功能障碍在使用寿命
这个研究概况区域将独特的多学科环境中的认知和生物医学神经科学结合在一起,研究发育中的大脑,成年大脑和老化大脑的脑功能和功能障碍。潜在的信念是,任何人想知道为什么大脑中的某些东西出错,首先必须知道正常的大脑看起来和它们的功能。我们研究从语言处理到认知机器人以及从偏头痛到精神疾病和神经药理学的学科。
Health, Prevention and the Human life cycle
This research profile area focuses on all phases of human development, from infancy and childhood to old age. Within this research profile area, psychologists, psychiatrists, specialists in education and child studies, gerontologists, public health and primary care specialists work closely together.
研究领域四:健康,预防和人类生命周期
该研究概况区域侧重于人类发展的所有阶段,从婴儿期到童年到老年。在这个调查范围内心理学家、精神病学家、教育和儿童研究专家、老年学家、公共卫生和初级保健专家紧密合作。
Language Diversity in the World
This research field, based in the Leiden University Centre for Linguistics (LUCL), brings together descriptive, historical and theoretical linguistics, as well as psycho- and neurolinguistics. Nowhere else in Europe is such a broad range of languages studied than here in Leiden. The LUCL combines unique expertise in the field of Africa, Indian America, South and Central Asia, Southeast Asia and Oceania, East Asia and Siberia, and Eurasia and Europe. LUCL researchers also participate in the interdisciplinary Leiden Institute for Brain and Cognition, where they co-operate with psychologists, biologists and medical researchers.
研究领域五:世界语言多样性
该研究领域位于莱顿大学语言学中心(LUCL)汇集了描述性、历史性和理论语言学以及心理和神经语言学。欧洲的其他地方比莱顿这样比较广泛的语言学习。LUCL结合了非洲,印度美洲、南亚和中亚、东南亚和大洋洲、东亚和西伯利亚以及欧亚和欧洲的独特专长。LUCL研究人员还参与了跨学科莱顿脑与认知研究所,与心理学家,生物学家和医学研究人员合作。
Vascular and regenerative medicine
Mainly due to the epidemic occurrence of atherosclerosis and diabetes, a rapidly growing number of people have severe organ damage, especially heart and kidney failure. This is an increasing burden on health care systems all over the world, and the waiting lists for organ transplants are growing. Regenerative medicine holds the promise of alleviating these problems.
研究领域六:血管再生医学
主要是由于动脉粥样硬化和糖尿病的流行发生,人数急剧增加的人员受到严重的器官损害,特别是心肾衰竭。世界卫生保健系统的负担越来越大,器官移植的候补名单正在增加。再生医学有助于缓解这些问题。
四、校园环境
Flourishing campus life
The Hague wants to develop further as a flourishing university city. The University has much to offer the city, not only in the form of its students, highly educated graduates and academic knowledge, but also a breeding ground for talent, innovation, start-ups and post-academic teaching. The further development of campus life in The Hague is therefore high on the agendas of both University and city.Since the late 1990s Leiden University has had locations in two cities: Leiden and The Hague. Progress has been particularly rapid in recent years. Six of the University's seven faculties are now active on the The Hague campus. The Faculty of Governance and Global Affairs is located fully and exclusively in The Hague, as is our Leiden University College. By reflecting the profile of The Hague as the city of peace, security and justice, along with the other opportunities the city offers for teaching and research, our The Hague Campus is rapidly gaining recognition as a prominent international centre of academic education and research.
蓬勃发展的校园生活
海牙希望进一步发展成为一个蓬勃发展的大学城市。大学不仅以受过良好教育的毕业生和学术知识学生的形式,更是为人才、创新、创业和后学术教学提供了便利。因此,海牙校园生活的进一步发展在大学和城市的议程上都是很高的。自20世纪90年代末以来,莱顿大学在莱顿和海牙两个城市都有地点。近几年的进步特别快。大学七个学院中有六个现在在海牙校区活跃的存在着。治理和全球事务学院完全和全部在海牙,我们的莱顿大学学院也是如此。通过反映海牙作为和平、安全和正义的城市,以及城市提供的教学和研究的其他机会,海牙校园正在迅速获得国际知名的国际学术教育和研究中心的认可。莱顿大学同其他大学一样是不设宿舍的。校国际办公室会提供多种房子供学生选择,学生可根据自己的意愿挑选。多数学生都选择在学校周边居住。莱顿大学的学生宿舍内都配有厨房,学生可以自己准备三餐。在校生也可以选择校食堂。莱顿有许多学生俱乐部,体育馆,酒吧。大学还有自己的剧院,可提供学生多种不同的文艺课程,如:戏剧、舞蹈、绘画、表演等。
五、知名校友(源自网络,因篇幅原因无法逐一叙述,望见谅,排名不分先后)
包括尤斯图斯·利普修斯、约瑟夫·尤斯图斯·斯卡利杰
莱顿大学的教授们(Joseph Justus Scaliger)、弗朗西斯库斯·霍马勒斯(Franciscus Gomarus)、胡果·格老秀斯、雅各布斯·阿民念、丹尼尔·海因修斯(Daniel Heinsius) 与 格哈德·约翰·福修斯(Gerhard Johann Vossius)等学者。
世界低温物理学奠基人海克·卡默林·昂纳斯教授(Heike Kamerlingh Onnes)在世界上第一个低温实验室中成功地提炼出液化氦,并发现了超导现象,于1913年被授予诺贝尔物理奖。还有1902年的诺贝尔物理奖得主亨德里克·安通·罗伦兹(Hendrik Antoon Lorentz)和彼得·齐曼(Pieter Zeeman),以及1924年获得诺贝尔医学奖的威廉·恩特霍芬(Willem Einthoven)等。
著名物理学家爱因斯坦在1920至1946年间曾出任莱顿大学物理系的特别首席教授,此外还有伊斯兰教及阿拉伯研究专家克里斯蒂安·斯诺克·赫格隆(Christiaan Snorck hurgronje)、法律学家考奈利斯·冯·瓦伦霍文 (Cornelis van Vollenhoven)等人,他们都是诺贝尔奖得主。
时至19世纪末,在这里的世界第一间低温物理实验室里,世界低温物理学奠基人海克·卡默林·昂纳斯教授(Heike Kamerlingh Onnes)创造了4K 的人工低温;在1908年,昂纳斯首先将氦液化,并且发现了对人类影响巨大的超导现象。昂纳斯在1913年获得诺贝尔物理奖。此外,获诺贝尔奖的莱顿教授还有发现塞曼效应的物理学家亨德里克·洛伦兹(Hendrik Antoon Lorentz)与彼得·塞曼,以及发明心电图的生理学家威廉·恩特霍芬。爱因斯坦也曾于1920年至1946年在莱顿讲学,担任莱顿大学物理系特别首席教授,他的论玻色子的统计分布(即后来的玻色-爱因斯坦凝聚)的手稿于2005年在莱顿大学图书馆里被发现。在当今研究领域中,莱顿大学仍扮演着叱咤风云的角色。
学校相关名人名单(部分,排名不分先后):
奥兰治亲王威廉一世(又称“沉默的威廉”)(William the Silent, Prince William I of Orange) 荷兰民族领袖,在他的建议下,荷兰王国有史以来第一所高等学府,莱顿大学于1575年2月8日成立
约翰·昆西·亚当斯(John Quincy Adams)美国第六任总统
赫尔曼·布尔哈芬(Herman Boerhaave) 著名医学家,数学家、物理学家、化学家,被誉为欧洲教育大师
威廉·埃因托芬(Willem Einthoven)荷兰生理学家、“心电图之父” 、诺贝尔医学奖得主
亨德里克·洛伦兹(Hendrik Antoon Lorentz)荷兰物理学家,经典电子论的创立者,诺贝尔物理奖得主
阿尔伯特·爱因斯坦(Albert Einstein)莱顿大学特别首席教授 理论物理学家、思想家及哲学家、相对论的创立者、诺贝尔物理奖得主
彼得·塞曼(Pieter Zeeman)荷兰物理学家 1902年诺贝尔物理奖得主
海克·卡末林·昂纳斯(Heike Kamerlingh Onnes)超导现象发现者,低温物理学奠基人,诺贝尔物理学奖得主
温斯顿·丘吉尔(Sir Winston Leonard Spencer Churchill)英国前首相 诺贝尔文学奖得主
纳尔逊·曼德拉(Nelson Rolihlahla Mandela)南非前总统 诺贝尔和平奖得主
南非前总统曼德拉弗里茨·博尔克斯泰因(Frits Bolkestein)前欧盟执行委员会委员
Tjalling科普曼斯(1910-1985) 1975年诺贝尔经济学奖得主莱顿大学博士(1936年)
约翰内斯Diderik范德华力(1837年至1923年)1910年的诺贝尔物理学奖得主
雅各布斯·亨里克斯·霍夫(1852年至1911年) 1901年诺贝尔化学奖得主
托比亚斯阿塞(1838年至1913年)1911年的诺贝尔和平奖得主
恩里科·费米(Enrico Fermi)(1901-1954)1938年的诺贝尔物理学奖得主
尼古拉斯布隆伯根(生于1920) 1981年的诺贝尔物理学奖得主
简·丁伯根(1903-1994)1969年诺贝尔经济学奖得主 莱顿大学学生(1921-1925),教授(1973-1975年)
尼科·丁伯根(1907-1988)1973年的诺贝尔生理学/医学奖得主 莱顿大学学生(1925至1930年),博士(1932年),讲师(1933年至1942年/ /1944年至1947年),荷兰莱顿大学教授(1947-1949)
夏侯雅伯(Jakob Gijsbert "Jaap" de Hoop Scheffer)荷兰政治家,北约秘书长
莫里斯·塔巴克斯布雷特(Morris Tabaksblat)荷兰资本家,联合利华的前CEO
纳赛尔·哈米德·阿布·扎伊德(Nasr Hamid Abu Zayd)埃及思想家,伊斯兰学者
阿雅安·希尔西·阿里(Ayaan Hirsi Ali)前荷兰国会议员
伯恩哈德·齐格弗里德·阿尔比努斯(Bernhard Siegfried Albinus)德国解剖学家
雅各布斯·阿民念(Jacobus Arminius)荷兰基督新教神学家
巴特·扬·博克(Bart Jan Bok)荷兰裔美国天文学家
亚历山大·博斯韦尔(Alexander Boswell, Lord Auchinleck)苏格兰最高法院前法官
卡罗勒斯·克鲁修斯(Carolus Clusius)法国植物学家、医生和人文主义者
勒内·笛卡尔(René Descartes)法国哲学家、科学家和数学家
艾兹赫尔·戴克斯特拉(Edsger Wybe Dijkstra)荷兰计算机科学家
保罗·埃伦费斯特(Paul Ehrenfest)荷兰物理学家
米歇尔·扬·德·胡耶(Michiel Jan de Goeje)荷兰东方学家
弗朗西斯库斯·霍马勒斯(Franciscus Gomarus)荷兰神学家
雅各布斯·赫罗诺维厄斯(Jacobus Gronovius)荷兰古典学者
胡果·格老秀斯(Hugo Grotius)荷兰法学家、哲学家、神学家,国际法鼻祖
哈孟库布沃诺九世(Sri Sultan Hamengkubuwono IX)印度尼西亚日惹的苏丹
小戴维·哈特利(David Hartley (the Younger))英国政治家、科学发明家
丹尼尔·海因修斯(Daniel Heinsius)人文主义者,古典文学诗人
泰比里厄斯·赫姆斯特豪斯(Tiberius Hemsterhuis)荷兰语言学家
约翰·赫伊津哈(Johan Huizinga)荷兰语言学家和历史学家,莱顿大学前校长。
约翰·亨德里克·卡斯帕·科恩(Johan Hendrik Caspar Kern)荷兰的印度学学者及佛教学者
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