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共聚焦显微镜

徕卡显微系统的共聚焦显微镜广泛应用于生物医学研究和材料科学应用中的表面分析,为研究者提供高精度三维成像数据,以及准确的亚细胞结构和动态成像。

模块化共聚焦显微镜

徕卡激光共聚焦显微镜基于模块化理念而设计,支持灵活的升级方案,可集成多种创新功能,包括STED超高分辨率成像、DIVE可调谐光谱式深组织成像等。

共聚焦显微镜 13

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Confocal Laser Scanning Microscope SP8 LIGHTNING

SP8 LIGHTNING

超高分辨率多色活细胞成像

SP8 DIVE

Deep In Vivo Explorer - 可调光谱的多光子成像系统

使用 LIGHTNING 最大限度获取每个样品中的信息

LIGHTNING

The maximum of information from each specimen

Leica TCS SP8 CARS 共聚焦显微镜——无标记成像

Leica TCS SP8 CARS

活体无标记成像

STED nanoscopy in all 3 dimensions

Leica TCS SP8 STED

STED 纳米显微镜

Leica TCS SP8 DLS

结合光片与共聚焦技术,在显微镜上使用柔和的单平面照明实现完全的共聚焦。

Leica TCS SP8 X Spectral Characterization

Leica TCS SP8 X

激光扫描共聚焦显微镜:最多可同时使用8条激发谱线。

The Leica TCS SPE 共焦显微系统提供高质量的图像

Leica TCS SPE

激光扫描共聚焦显微镜:适用于常规科研的高分辨率光谱式共聚焦显微镜,可用于活细胞和固定样品的荧光成像。

Leica HyD for photon counting

Leica HyD

配备了Leica HyD 混合探测器,较PMT具有更高的对比度。

Leica HCS A

可调节的扫描模版灵活性强,轻松实现自动化高效筛选。

较好的光学表现在3D中

Leica motCORR Objectives

该款物镜可快速调节物镜棱镜以适应不同厚度的盖玻片,达到更好的图像质量。

光学表面测量系统

Leica DCM8

Leica DCM8 光学表面测量系统采用最新的非接触式三维光学表面测量技术,融合了高清晰度共聚焦显微镜和干涉测量技术的多功能双核系统,提高工作效率。

适用于科研仪器 RemoteCare 远程维护的智能监控和服务

RemoteCare

适用于您显微镜的智能监控和服务选项

中文信息

Image Gallery: THUNDER Imager

To help you answer important scientific questions, THUNDER Imagers eliminate the out-of-focus blur that clouds the view of thick samples when using…

Leica Science Lab

Development of fluorescence lifetime imaging microscopy (FLIM) and its relevance for functional imaging

Prof. Ammasi Periasamy, Director, Keck Center for Cellular Imaging, University of Virginia, was interviewed by Dr. Giulia Ossato, Product Manager…

Leica Science Lab
Human Kidney Organoid, hESC-derived Podocytes

Multiphoton imaging bolsters findings on in vitro differentiation of pluripotent stem cell-derived podocyte

The renal corpuscle of the kidney comprises a glomerular vasculature embraced by podocytes and supported by mesangial myofibroblasts. Their combined…

Leica Science Lab

Where to go? Cellular Migration requires coordinated Transitions of Actin Cortex

Plants, Bacteria, and Fungi possess a rigid cell wall that protects the cell and gives it shape. Animal cells, such as mammalian cells, have no outer…

Leica Science Lab

Cellular Motility: Microtubules, Motor Proteins and Tau-Proteins

Cellular motility is based on motor-proteins that can bind to filamentous scaffold proteins and – under consumption of ATP – can “crawl” on these…

Leica Science Lab

How FRET/FLIM Biosensors and Lifetime Imaging Helped Identify the Importance of Zinc for Human B-Cell Development

In her latest studies, Dr. Mukta Deobagkar-Lele investigated the role of ZIP7, a zinc transporter protein, in modulating B cell activity and its…

Leica Science Lab
Cavanillesia Arborea 10mm Core

Improved tree-ring visualization using autofluorescence

Autofluorescence can be a very practical tool for the visualization of growth rings in wood, especially when these structures are hard to distinguish,…

Leica Science Lab
Cover glomerulus

The Guide to STED Sample Preparation

This guide is intended to help users optimize sample preparation for stimulated emission depletion (STED) nanoscopy, specifically when using the TCS…

Leica Science Lab

Single-residue bioorthogonal labeling of G protein-coupled receptors (GPCRs) in live cells for quantitative analysis

To perform quantitative studies of membrane bound G protein-coupled receptors (GPCRs) with high-performance microscopy, the proteins must first be…

Leica Science Lab

Coherent Raman Scattering Microscopy Publication List

CRS (Coherent Raman Scattering) microscopy is an umbrella term for label-free methods that image biological structures by exploiting the…

Leica Science Lab