- 通过成像和原位数据采集性能的大幅提升,继续巩固了业界的领导地位
- 在4k x 4k 的全幅分辨率下始终以 25 fps 的帧速率提供“实时观察”体验,速度和分辨率之间无需再妥协
- 利用高速的数据数据进行实时样品漂移矫正,从而保证优异图像品质
- 利用灵敏度非常高的闪烁体及耦合光纤,以高的信噪比检测每个信号电子
- 动态范围可扩展到 16 位以上,衍射模式下无需挡针(beam stopper)
- 直观、内置的工作流软件,提高入门级用户的数据质量和工作效率
原位选项
- 灵活调整帧率和分辨率 — 从 25 fps 帧速率时的 4096 x 4096 像素,到 300 fps 帧速率时的 512 x 512 像素,始终可以保持 100% 占空比
- 使用视频缓冲区筛选数据,仅记录您想要的视频;具有事后触发和回看功能
- 不再错过原位反应的开始阶段
- 利用强大的后处理工具,针对您的应用编辑和保存视频
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Gatan & AIF 成像研讨会
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In-situ data processing with GMS 3.4: Live processing with in-situ datasets
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In-situ data processing with GMS 3.4: Exporting videos from in-situ datasets
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In-situ data processing with GMS 3.4: Saving in-situ datasets
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In-situ data processing with GMS 3.4: In-situ data management, Part 2 – Temporal reduction
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In-situ data processing with GMS 3.4: In-situ data management, Part 1 – Spatial reduction
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In-situ data processing with GMS 3.4: In-situ video playback
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In-situ data processing with GMS 3.4: In-situ data introduction
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利用高速直接探测相机进行4D-STEM表征
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Acquisition of MoSx based sample using In-Situ Explorer
Hogan-Lamarre, P.; Luo, Y.; Bücker, R.; Miller, R. J. D.; Zou, X.
Intermetallic nanocrystal discovery through modulation of atom stacking hierarchy
Du, J. S.; Dravid, V. P.; Mirkin, C. A.
Hölzel, H.; Lee, S.; Amsharov, K.; Jux, N.; Harano, K.; Nakamura, E.; Lungerich, D.
Organic crystal growth: Hierarchical self-assembly involving nonclassical and classical steps
Biran, I.; Rosenne, S.; Weissman, H.; Tsarfati, Y.; Houben, L.; Rybtchinski. B.
The performance of detectors for diffraction-based studies in (S)TEM
Pakzad, A.; dos Reis. R. D.
Orris, B.; Huynh, K. W.; Ammirati, M.; Han, S.; Bolaños, B.; Carmody, J.; Petroski, M. D.; Bosbach, B.; Shields, D. J.; Stivers, J. T.
Structural analysis of the basal state of the Artemis:DNA-PKcs complex
Watanabe, G.; Lieber, M. R.; Williams, D. R.
Shimizu, T.; Lungerich, D.; Harano, K.; Nakamura, E.
Hasegawa, S.; Masuda, S.; Takano, S.; Harano, K.; Tsukuda, T.
Liu, D.; Kowashi, S.; Nakamuro, T.; Lungerich, D.; Yamanouchi, K.; Harano, K.; Nakamura, E.
Metastable hexagonal close-packed palladium hydride in liquid cell TEM
Hong, J.; Bae, J. -H.; Jo, H.; Park, H. -Y.; Lee, S.; Hong, S. J.; Chun, H.; Cho, M. K.; Kim, J.; Kim, J.; Son, Y.; Jin, H.; Suh, J. -Y.; Kim, S. -C.; Roh, H. -K.; Lee, K. H.; Kim, H. -S.; Chung, K. Y.; Yoon, C. W.; Lee, K.; Kim, S. H.; Ahn, J. -P.; Baik, H.; Kim, G. H.; Han, B.; Jin, S.; Hyeon, T.; Park, J.; Son, C. Y.; Yang, Y.; Lee, Y. -S.; Yoo, S. J.; Chun, D. W.
Imaging of isotope diffusion using atomic-scale vibrational spectroscopy
Senga, R.; Lin, Y. -C.; Morishita, S.; Kato, R.; Yamada, T.; Hasegawa, M.; Suenaga, K.
Liu, D.; Kowashi, S.; Nakamuro, T.; Lungerich, D.; Yamanouchi, K.; Harano, K.; Nakamura, E.
The giant Mimivirus 1.2 Mb genome is elegantly organized into a 30 nm helical protein shield
Villalta, A.; Schmitt, A.; Estrozi, L. F.; Quemin, E. R. J.; Alempic, J. -M.; Lartigue, A.; Pražák, V.; Belmudes, L.; Vasishtan, D.; Colmant, A. M. G.; Honoré, F. A.; Couté, Y.; Grünewald, K.; Abergel, C.
Spinterface induced modification in magnetic properties in Co40F e40B20/fullerene bilayers
Sharangi, P.; Pandey, E.; Mohanty,S.; Nayak, S.; Bedanta, S.
De novo synthesis of free-standing flexible 2-D intercalated nanofilm uniform over tens of cm2
Ravat, P.; Uchida, H.; Sekine, R.; Kamei, K.; Yamamoto, A.; Konovalov, O.; Tanaka, M.; Yamada, T.; Harano, K.; Nakamura, E.
Electron crystallographic investigation of crystals on the mesostructural scale
Mao, W.; Bao, C.; Han, L.
Atomic-number (Z)-correlated atomic sizes for deciphering electron microscopic molecular images
Xing, J.; Takeuchi, K.; Kamei, K.; Nakamuro, T.; Harano, K.; Nakamura, E.
Lungerich, D.; Hoelzel, H.; Harano, K.; Jux, N.; Amsharov, K. Y.; Nakamura, E.
Lungerich, D.; Hoelzel, H.; Harano, K.; Jux, N.; Amsharov, K. Y.; Nakamura, E.
Hasegawa, S.; Takano, S.; Harano, K.; Tsukuda, T.
Hasegawa, S.; Takano, S.; Harano, K.; Tsukuda, T.
Rim binding of cyclodextrins in size-sensitive guest recognition
Hanayama, H.; Yamada, J.; Tomotsuka, I.; Harano, K.; Nakamura, E.
Graded microstructure preparation in austenitic stainless steel during radial-shear rolling
Lezhnev, S. N.; Naizabekov, A. B.; Panin, E. A.; Volokitina, I. E.; Arbuz, A. S.
Few-nm-sized, phase-pure Au5Sn intermetallic nanoparticles: synthesis and characterization
Osugi, S.; Takano, S.; Masuda, S.; Harano, K.; Tsukuda, T.
Evolution of anisotropic arrow nanostructures during controlled overgrowth
Wang, W.; Erofeev, I.; Nandi, P.; Yan, H.; Mirsaidov, U.
Sekine, R.; Ravat, P.; Yanagisawa, H.; Liu, C.; Kikkawa, M.; Harano, K.; Nakamura, E.
Capturing the moment of emergence of crystal nucleus from disorder
Nakamuro, T.; Sakakibara, M.; Nada, H.; Harano, K.;Nakamura, E.
Kratish, Y.; Nakamuro, T.; Liu, Y.; Li, J.; Tomotsuka, I.; Harano, K.; Nakamura, E.; Marks, T. J.
Aryl radical addition to curvatures of carbon nanohorns for single-molecule level molecular imaging
Kamei, K.; Shimizu, T.; Harano, K.; Nakamura, E.
Cyclodextrins as surfactants for solubilization and purification of carbon nanohorn aggregates
Hanayama, H.; Yamada, J.; Harano, K.; Nakamura, E.
Thickness and defocus dependence of inter-atomic electric fields measured by scanning diffraction
Addiego, C.; Gao, W.; Pan, X.
Gao, W.; Addiego, C.; Wang, H,; Yan, X.; Hou, Y.; Ji, D.; Heikes, C.; Zhang, Y.; Li, L.; Huyan, H.; Blum, T.; Aoki, T.; Nie, Y.; Schlom, D.; Wu, R.; Pan, X.
Atomistic structures and dynamics of prenucleation clusters in MOF-2 and MOF-5 syntheses
Xing, J.; Schweighauser, L.; Okada, S.; Harano, K.; Nakamura, E.
Quantifying inactive lithium in lithium metal batteries
Fang, C.; Li, J.; Zhang, M.; Zhang, Y.; Yang, F.; Lee, J. Z.; Lee, L. M. -H.; Alvarado, J.; Schroeder, M. A.; Yang, Y.; Lu, B.; Williams, N.; Ceja, M.; Yang, L.; Cai, M.; Gu, J.; Xu, K.; Wang, X.; Meng, Y. S.
Wang, H.; Liu, Z.; Liu, H.; Guan, L.; Cao, X.; Zhang, Z.; Huang, Y.; Jin, C.
Su, T.; Hood, Z. D.; Naguib, M.; Bai, L.; Luo, S.; Rouleau, C. M.; Ivanov, I. N.; Ji, H.; Qin, Z.; Wu, Z.
Tunes, M. A.; Harrison, R. W.; Donnelly, S. E.; Edmondson, P. D.
Factors affecting electron beam damage in calcite nanoparticles
Hooley, R.; Brown, A.; Brydson, R.
Thermal stability and irradiation response of nanocrystalline CoCrCuFeNi high-entropy alloy
Zhang, Y.; Tunes, M. A.; Crespillo, M. L.; Zhang, F.; Boldman, W. L.; Rack, P. D.; Jiang, L.; Xu, C.; Greaves, G.; Donnelly, S. E.; Wang, L.; Weber, W. J.
Low dose scanning transmission electron microscopy of organic crystals by scanning moiré fringes
S’ari, M.; Cattle, J.; Hondow, N.; Brydson, R.; Brown, A.
Carbon polyaniline capacitive deionization electrodes with stable cycle life
Evans, S. F.; Ivancevic, M. R.; Wilson, D. J.; Hood, Z. D.; Adhikari, S. P.; Naskar, A. K.; Tsouris, C.; Paranthaman, M. P.
Le Ferrand, H.; Duchamp, M.; Gabryelczyk, B.; Cai, H.; Miserez, A.
Connolly, M.; Zhang, Y.; Mahri, S.; Brown, D. M.; Ortuño, N.; Jordá-Beneyto, M.; Maciaszek, K.; Stone, V.; Fernandes, T. F.; Johnston, H. J.
Mechanical response of gasoline soot nanoparticles under compression: An in situ TEM study
Jenei, I. Z.; Dassenoy, F.; Epicier, T.; Khajeh, A.; Martinic, A.; Uy, D.; Ghaednia, H.; Gangopadhyay, A.
2D/2D heterojunction of Ti3C2/g-C3N4 nanosheets for enhanced photocatalytic hydrogen evolution
Su, T.; Hood, Z. D.; Naguib, M.; Bai, L.; Luo, S.; Rouleau, C. M.; Ivanov, I. N.; Ji, H.; Qin, Z.; Wu, Z.
Rodriguez-Caro, H.; Dragovic, R.; Shen, M.; Dombi, E.; Mounce, G.; Field, K.; Meadows, J.; Turner, K.; Lunn, D.; Child, T.; Southcombe, J. H.; Granne, I.
Structural analysis of single nanoparticles in liquid by low-dose STEM nanodiffraction
Khelfa, A.; Byun, C.; Nelayah, J.; Wang, G.; Ricolleau, C.; Alloyeau, D.
Layered-structure SbPO4/reduced graphene oxide: An advanced anode material for sodium ion batteries
Pan, J.; Chen, S.; Fu, Q.; Sun, Y.; Zhang, Y.; Lin, N.; Gao, P.; Yang, J.; Qian, Y.
2D transition metal carbides (MXenes) for carbon capture
Persson, I.; Halim, J.; Lind, H.; Hansen, T. W.; Wagner, J. B.; Näslund, L. -A.; Darakchieva, V.; Palisaitis, J.; Rosen J.; Persson, P. O. A.
2D transition metal carbides (MXenes) for carbon capture
Persson, I.; Halim, J.; Lind, H.; Hansen, T. W.; Wagner, J. B.; Näslund, L. -A.; Darakchieva, V.; Palisaitis, J.; Rosen J.; Persson, P. O. A.
Atomic step flow on a nanofacet
Harmand, J. -C.; Patriarche, G.; Glas, F.; Panciera, F.; Florea, I.; Maurice, J. -L.; Travers, L.; Ollivier, Y.
A high-entropy alloy with hierarchical nanoprecipitates and ultrahigh strength
Fu, Z.; Jiang, L.; Wardini, J. L.; MacDonald, B. E.; Wen, H.; Xiong, W.; Zhang, D.; Zhou, Y.; Rupert, T. J.; Chen, W.; Lavernia, E. J.
Jung, H. J.; Kim, D.; Kim, S.; Park, J.; Dravid, V. P.; Shin, B.
In situ kinetic and thermodynamic growth control of Au–Pd core–shell nanoparticles
Tan, S. F.; Bisht, G.; Anand, U.; Bosman, M.; Yong, X. E.; Mirsaidov, U.
Yu, J.; Yuan, W.; Yang, H.; Xu, Q.; Wang, Y.; Zhang, Z.
Fernandez, S.; Ostraat, M. L.; Lawrence III, J. A.; Zhang, K.
Nanoparticle interactions guided by shape‐dependent hydrophobic forces
Tan, S. F.; Raj, S.; Bisht, G.; Annadata, H. V.; Nijhuis, C. A.; Král, P.; Mirsaidov, U.
Lutz, L.; Dachraoui, W.; Demortière, A.; Johnson, L. R.; Bruce∥, P. G.; Grimaud, A.; Tarascon, J. -M.
Destefani, T. A.; Onaga, G. L.; de Farias, M. A.; Percebom, A. M.; Sabadini, E.
Andrew, R. S.; Austin, B. F.; George, C. R.; Ronald, C. B.; James, M. J.
Solvent-free and biocompatible multiphased organic–inorganic hybrid nanocomposites
da Silva, L. C. E.; Germiniani, L. G. L.; Plivelic, T. S.; Gonçalves, M. C.
S.E.Gilliland III, Tengco, J. M. M.; Yang, Y.; Regalbuto, J. R.; Castano, C. E.; Gupton, B. F.
Direct microscopic analysis of individual C60 dimerization events: Kinetics and mechanisms
Okada, S.; Kowashi, S.; Schweighauser, L.; Yamanouchi, K.; Harano, K.; Nakamura, E.
Direct observation of the nanoscale Kirkendall effect during galvanic replacement reactions
Chee, S. W.; Tan, S. F.; Baraissov, Z.; Bosman, M.; Mirsaidov, U.
Han, C. W.; Choksi, T.; Milligan, C.; Majumdar, P.; Manto, M.; Cui, Y.; Sang, X.; Unocic, R. R.; Zemlyanov, D.; Wang, C,; Ribeiro, F. H.; Greeley, J.; Ortalan, V.
Vertical graphene growth on SiO microparticles for stable lithium ion battery anodes
Shi, L.; Pang, C.; Chen, S.; Wang, M.; Wang, K.; Tan, Z.; Gao, P.; Ren, J.; Huang. Y.; Peng, H.; Liu, Z.
Sinclair, R.; Lee, S. C.; Shi, Y.; Chueh, W. C.
Koh, A. L.; Sinclair, R.
Oikawa, T.; Okumura, M.; Kimura, T.; Nishiyama, Y.
Gallagher, J. R.; Torian, U.; McCraw, D. M.; Harris, A. K.
Amyloidogenicity and toxicity of the reverse and scrambled variants of amyloid-β 1-42
Vadukul, D. M.; Gbajumo, O.; Marshall, K. E.; Serpell, L. C.
Gallagher, J. R.; Torian, U.; McCraw, D. M.; Harris, A. K.
Ophus, C.; Rasool, H. I.; Linck, M.; Zettl, A.; Ciston, J.
Distinct nanoscale reaction pathways in a sulfide material for sodium and lithium batteries
Boebinger, M. G.; Xu, M.; Ma, X.; Chen, H.; Unocic, R. R.; McDowell, M. T.
Koh, A. L.; Gidcumb, E.; Zhou, O.; Sinclair, R.
The antioxidant protein Oxr1 influences aspects of mitochondrial morphology
Wu, Y.; Davies, K. E.; Oliver, P. L.
Torsional deformations in subnanometer MoS interconnecting wires
Koh, A. L.; Wang, S.; Ataca, C.; Grossman, J. C.; Sinclair, R.; Warner, J. H.
1095 型
产品说明书
实验简介
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Recording atomic-scale crystal nucleation and growth dynamics. |
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Real-time data processing and feedback during in-situ heating |
Torsional deformation in subnanometer MoS interconnecting wires |
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规格
| 规格 | 优势 |
|---|---|
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基础系统 |
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| 4096 x 4096 像素,15 微米像素大小 | 在大幅面传感器中支持超高清 (UHD) 图像分辨率,提供宽阔的视野 |
| 25 帧/秒 (fps),同时以 4k x 4k 的全分辨率运行 | 始终以全传帧分辨率和 TV 速率运行,无需进行像素联合 |
| 实时漂移校准 | 在最终图像中自动切除图像边缘 |
| 可扩展的动态范围 | 消除传统上相机动态范围的限制 |
| 与 GIF 兼容 | 安装于 GIF 系统之上,不影响性能或操作 |
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原位选项 |
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以 25 fps 帧速率将 4k x 4k 分辨率图像以 *.dm 格式直接写入磁盘 |
消除采集大规模原位数据集时遇到的技术瓶颈 |
| 最高 20 秒回看功能 | 借助事后触发功能,不再错过反应的开始阶段 |
| 仅记录您需要的数据 | |
| 15 分钟以上数据存储功能 | 在一台计算机上存储多个 4k x 4k 分辨率、25 fps 帧速率的数据集;具有扩展功能 |
相关产品
OneView LD 数字成像系统
STEMx 系统
In-Situ Explorer软件模块
Latitude® S 软件