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【培训通知】【第二期】理化公共实验室平台 Lab Show(每周),欢迎您的参与!

浏览量:时间:2020-04-28

各位老师、同学

大家好!

    理化公共平台各个实验室第二期 Lab Show 开放时间及主题请见日历表,本周 Lab Show 不需要提前报名,大家于规定时间前去实验室并进行签到即可,欢迎您的参与!

CDD1

实验室介绍:

https://iscps.westlake.edu.cn/ldfw.jsp?urltype=tree.TreeTempUrl&wbtreeid=1148

各实验室简介

光谱实验室Lab Show 周五10:00-11:00

光谱实验室提供最先进的从近紫外、可见光到中红外区的稳态和瞬态光谱表征,用于能级结构、分子几何、化学键性质的研究,实现从皮秒到秒的反应动力学监测。

Spectroscopy Laboratory provides the state-of-the-art spectroscopic characterization for steady state and transient state, covering near ultraviolet, visible to mid-infrared, supporting the investigation of energy level structure, molecular geometry, chemical bond properties, and monitoring reaction dynamics from picosecond to second.

X射线衍射实验室Lab Show 周三11:00-12:00

X射线衍射室以X射线为介质,从原子级别上剖析晶态材料的三维空间结构,分析分子内/分子间相互作用来揭示功能材料的性能。此实验室致力于开发基于小分子的高分辨与原位表征的XRD技术与方法来支撑生物、物理、化学及材料学的前沿发展。

X-ray Diffraction Lab facilitates the analysis of 3-D structures at atomic scale for crystallines, unrevealing properties of functional materials via investigating inter/intra-molecular interaction. It devotes to exploring methodology and techniques in high-resolution and in-situ XRD characterization for small organic and/or inorganic molecules, to support the edge-cutting research in biological study, physics, chemistry and material science.

低温实验室Lab Show 周四14:00-15:00

低温实验室可在极端条件下(最低温度10 mK,最大磁场 16T)对先进功能材料和器件的电学、磁学、力学、热学和光学等性质进行研究。

The core purpose of Cryogenics Laboratory is studying physical properties (such as electricity,magnetics, dynamics, thermology and optics) of advanced functional materials and devices in extremely low temperature (~10 mK) and strong magnetic field (~16 T).

电镜实验室Lab Show 周三11:00-12:00

电镜实验室主要通过电子显微技术探索材料的微结构,在纳米/埃尺度下研究材料的结构、形貌,观测纳米材料的结构演变,获得材料的表面物理信息,为理解材料构成、结构和性能建立关系纽带。本实验室还可以利用特色的SEM和AFM控制材料的观察环境,从而实现材料的原位分析。

Electron Microscopy Lab holds various SEM, TEM and AFM equipment, which visualizes material morphologies, explores their structures as well as monitors the structure evolution at Nano/Angstrom scale, and obtains their surface physical information. It provides a direct method to understand structure-property relationship. Also it is endowed with unique features of comprehensive advanced applications, like environment-dependent in-situ analysis by SEM and AFM.

性能实验室Lab Show 周五11:00-12:00

性能测试实验室致力于为核心材料、核心器件等科学研究提供精准化、系统性的专业表征服务,从而建立起宏观性能(热、力、光、电等)与微观结构之间的联系桥梁。

Physical Properties Characterization Lab works on providing accurate, systematic and professional characterization service for scientific researches on core material and core device, in order to build the bridge between macro-property(such as thermology, mechanics, optics and electricity)and micro-structure.

色质谱实验室Lab Show 周三10:00-11:00

色质谱实验室面向化学、材料、环境、食品等领域,以小分子、聚合物为研究对象,依靠色质谱技术进行定性、定量分析及化合物纯化制备,开展小分子,尤其是异构体分子的色质谱方法研究。

Chromatography and Mass Spectroscopy Lab focuses on qualitative analysis, quantitative analysis and compound purification for small molecules and polymers in chemistry-, material-, environment- and food-related areas via chromatography and mass spectrometry techniques. We are dedicated to developing the chromatographic and/or mass spectrometric method, especially for isomer analysis.

表面物理分析实验室Lab Show 周五14:00-15:00

表面物理分析实验室以世界一流的高通量超高真空互联系统为核心,集成了ARPES、OxMBE、LMBE、STM和XPS,能够提供组分/形貌/价态/能带结构/自旋信息的一站式原位表征。本实验室致力于表面物理新奇现象及内在机理的探索和相关设备的开发。

Surface Physics Analysis lab is based on a world-class high-throughput all-in-1 UHV cluster system, which integrated ARPES, OxMBE, LMBE, STM and XPS to provide 1-station in-situ measurement for composition, topography, valence, band structure and spin information. This lab focus on the novel phenomena of surface physics,the exploration of underlying mechanism and the development relating equipment.

磁共振实验室Lab Show 周五14:00-15:00

磁共振实验室旨在为分子结构、相互作用和动力学的原位和高分辨率分析提供先进的方法和设施。核磁共振和电子顺磁共振对核自旋和超精细相互作用的精确操控,使其成为量子物理、分析化学、结构生物学和分子医学研究的综合表征平台。

Magnetic Resonance Lab aims to provide advanced methodologies and facilities for in-situ and high-resolution analysis of molecular structures, interactions and dynamics. The manipulation of nuclear spins and hyperfine interactions by NMR and EPR makes it a comprehensive characterization platform for quantum physics, analytical chemistry, structural biology and molecular medical research.