iXon系列EMCCD 探测器
#single-molecule, #super-res, #ion-imaging, #confocal, #quantum, #astronomy, #luminescence
Andor

iXon系列EMCCD 探测器

iXon系列 EMCCD探测器是Andor倾力研发的高端超灵敏科研级探测器平台,在所有关键的性能规格和参数上特别设计,驱使EMCCD技术发挥最佳功效。

NEW
  iXon Life – 专为显微成像而生
  • 单光子灵敏度
  • 背照式 > 95% QE
  • 快速帧频
  • 独一无二的性价比
  • 单分子极限探测器
  • 维持精确的细胞生理机能

EMCCD 应用

单分子
离子成像
共聚焦
量子学
天文学
化学发光



单分子探测

长期以来,Andor 的iXon系列EMCCD一直是生物物理学相关实验室所用探测器的金标准。直到今天,在背照式sCMOS相机灵敏度不能达到要求的弱光领域,尤其是需要极低光漂白的情况下,EMCCD仍然是首选探测器。

iXon Life具有极高的读出速度,尤其在使用“光学中心剪切模式”下速度可以更高,这意味着可以更好的捕捉动态单分子荧光变化的特征。

iXon Life 888型号的13 μm像素可在衍射极限内提供卓越的单分子分辨能力并保证光子收集效率。

iXon Ultra 和 iXon Life 两种型号的区别

iXon Ultra

EMCCD技术的完美体现

对弱光应用来说,业界领导者Andor iXon Ultra长久以来一直被认为有着最佳的性能,是该类应用最广为认可的解决方案。iXon Ultra适用于物理和生命科学应用,具有无与伦比的灵活性和功能性,提供市场领先的热电冷却,“二合一”EMCCD和传统CCD读出模式并兼具许多其他高端功能。

全新的

iXon Life

专为显微成像而生

Andor全新的 iXon Life EMCCD平台专为荧光显微镜应用并提供单光子灵敏度,拥有绝对无与伦比的性价比。最小化光毒性或光漂白,完美适用于单分子检测和活细胞显微成像,但其价格通常和背照式sCMOS相机的价格相差不多。

  iXon Ultra iXon Life
Conventional CCD Amplifier -
Integrated Shutter -
Minimum TE Cooling Temperature -100 °C -80 °C
Direct Data Access (CameraLink) -
EMCCD Mode Readout speeds (MHz) 888 model - 30, 20, 10 & 1
897 model - 17, 10, 5 & 1
888 model - 30 & 10
897 model - 17 & 10
Single Photon Counting Modes -
Dual-AR QE (EX2) and Fringe Suppression options -
Window coating choices -

iXon型号选择

所列每个型号都适用于“Ultra”和“Life”平台

Models iXon 888 iXon 897
Core attributes Field of view, sensitivity and speed Sensitivity and speed
Sensor format 1024 x 1024 512 x 512
Sensor diagonal 18.8 mm 11.6 mm
QE options BV (Life) or BV, EX2, UVB (Ultra) BV (Life) or BV, EX2, UVB (Ultra)
Pixel Size 13 µm 16 µm
Frame Rate 26 fps (670 fps with 128 x 128 Crop Mode) 56 fps (595 fps with 128 x 128 Crop Mode)
Read Noise < 1 e- with EM Gain < 1 e- with EM Gain
Pixel well depth 80,000 e- 180,000 e-
Interface USB 3.0 USB 2.0
Learn more ULTRA SPEC SHEET LIFE SPEC SHEET ULTRA SPEC SHEET LIFE SPEC SHEET
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得益于最好的产品

EMCCD:最好的技术
iXon:最好的探测器
解决方案:最适合您的应用



EMCCD:最好的技术

电子倍增CCD(EMCCD)将微弱信号经由EM Gain放大至一种信号水平,这种信号水平在任意读出速率都具有清晰的读出噪音层,呈现单光子灵敏。

随着最近的高量子效率(QE)的革新,低噪音sCMOS技术在广泛的科学使用中受到欢迎,但只有EMCCD在极弱光条件下可提供实验所需的终极灵敏度,在此类应用中其优势仍然不可替代。

客户出版物

Author Title Year
Fast live-cell conventional fluorophore nanoscopy with ImageJ through super-resolution radial fluctuations
Real-time Quantification of Single RNA Translation Dynamics in Living Cells
Photometry unlocks 3D information from 2D localization microscopy data
Dynamic Filament Formation by a Divergent Bacterial Actin-Like ParM Protein
Imaging potassium-flux through individual electropores in droplet interface bilayers
Expansion microscopy with conventional antibodies and fluorescent proteins
Optimizing Imaging Conditions for Demanding Multi-Color Super Resolution Localization Microscopy
Low-cost multimodal light sheet microscopy for optically cleared tissues and living specimens
Distinct stages in stress granule assembly and disassembly
Massive and parallel expression profiling using microarrayed single-cell sequencing
SuReSim: simulating localization microscopy experiments from ground truth models
Correlative super-resolution imaging of RNA polymerase distribution and dynamics, bacterial membrane and chromosomal structure in Escherichia coli
Cell-specific STORM super-resolution imaging reveals nanoscale organization of cannabinoid signaling
Spatially resolved, highly multiplexed RNA profiling in single cells
Natural Loss of Mps1 Kinase in Nematodes Uncovers a Role for Polo-like Kinase 1 in Spindle Checkpoint Initiation
GPI-anchored proteins do not reside in ordered domains in the live cell plasma membrane
The EHD protein Past1 controls postsynaptic membrane elaboration and synaptic function