K3 IS 相机

针对原位电镜应用而生的电子计数、高速、大幅面相机。

优点 研究热点 媒体库 出版物 资源 回到顶部
优点: 

K3® IS – 针对原位电镜应用而生的电子计数、高速、大幅面相机。将 K3 相机带来的分辨率革命延伸至材料科学领域,使您能够以非凡的时间分辨率采集超高质量的原位数据。

更好

  • 帮助观察到样品的真实状态,而非辐照带来的假象
  • 利用业界领先的 DQE 和高灵敏度,采集到更高质量、低剂量、原位视频

更快

  • 高速电子计数
    • 以250帧每秒(fps)的速度将全幅视野实时保存至硬盘
    • 256 x 256 像素下以 >3500 fps 的速度实时保存至硬盘
  • ​Gatan Microscopy Suite® (GMS) 的原位处理功能以及免费离线工具缩短从数据到结果的时间

更大

  • 将视野扩展至 1400 或 2400 万像素 – 最高达 K2® IS 相机尺寸的 1.65 倍
研究领域: 
电子学
材料科学
自然资源
媒体库: 
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出版物

Reassessing chain tilt in the lamellar crystals of polyethylene

2023

Kanomi, S.; Marubayashi, H.; Miyata, T.; Jinnai, H.

Reassessing chain tilt in the lamellar crystals of polyethylene

Nature Communications
2023

Kanomi, S.; Marubayashi, H.; Miyata, T.; Jinnai, H.

The performance of detectors for diffraction-based studies in (S)TEM

Microscopy and Microanalysis
2022

Pakzad, A.; dos Reis. R. D.

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资源:

 

Models 1026, 1027

产品说明书

K3 IS 相机

应用

使用K3 IS相机进行电子叠层成像研究:解析SrTiO3中的氧元素

Acquiring counted electron diffraction data without a beam stop with Gatan electron counting direct detectors

 In-situ lattice-resolution imaging of hydrogen absorption into nanoparticles

原位观察 Pt 岛退火溶入Ru 枝状纳米结构以制备单原子催化剂

MoS2上碳纳米颗粒团聚的低剂量成像

锂金属电池的固体电解质界面膜成像

Imaging of graphene at 200 kV using electron counting

Electric field mapping in 2D heterostructures using differential phase contrast

Magnetite nanoparticle orientation mapping from a 4D STEM dataset

Dynamic in-situ lithiation of NiS-filled carbon nanotubes

Electron counting 4D STEM studies of human tooth enamel

Grain boundary structure of two-dimensional tellurium revealed by 4D STEM

Observing beam-induced dendritic growth over two different timescales

Magnetite nanoparticle orientation mapping from a single low-dose transmission electron microscope image

Virtual (BF/DF) imaging reveals the position and concentration of precipitates in a Ni-W alloy

Electric field-induced structural dynamics in MoS2 observed using in-situ transmission electron microscopy

K3 IS:低剂量电子显微术遇上催化研究

Imaging discrete ions at a liquid-solid interface using low-dose cryo-electron microscopy (cryo-EM) and electron counting

 

Acknowledgment

Continuing our prosperous collaborations that built the K2, the K3 is the successful result of Peter Denes' team at Lawrence Berkeley National Laboratory and David Agard.

 

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