久热久草在线_一一高清视频在线观看_在线观看91av_久草免费在线观看视频_国产精品午夜无码A体验区_国产一级高清

English | 中文版 | 手機版 企業登錄 | 個人登錄 | 郵件訂閱
當前位置 > 首頁 > 行業資訊 > 新品 > 日本RIBM HS-AFM超高速視頻級原子力顯微鏡上市

日本RIBM HS-AFM超高速視頻級原子力顯微鏡上市

瀏覽次數:13758 發布日期:2018-10-16  來源:本站 本站原創,轉載請注明出處
超高速視頻級原子力顯微鏡(Sample-Scanning High-Speed Atomic Force Microscope ,HS-AFM SS-NEX)是由日本 Kanazawa 大學 Prof. Ando 教授團隊歷經數十年研發而成的,也是世界上臺可以達到視頻級成像的商業化原子力顯微鏡。
 
 
相較于目前市場上的原子力顯微鏡成像設備,HS-AFM突破了 “掃描成像速慢”的限制,掃描速度最高可達 20 frame/s,并且有 4 種掃描臺可供選擇。樣品無需特殊固定染色,不影響生物分子的活性,尤其適用于生物大分子互作動態觀測。液體環境下直接檢測,超快速動態成像,分辨率為納米水平。探針小,適用于生物樣品;懸臂探針共振頻率高,彈簧系數小,避免了對生物樣品等的損傷。懸臂探針可自動漂移校準,適用于長時間觀測。采用動態PID控制,高速掃描時仍可獲得清晰的圖像。XY軸分辨率2nm;Z軸分辨率0.5nm。
 
超高速視頻級原子力顯微鏡HS-AFM推出至今,全球已有80多位用戶,發表 SCI 文章 200 余篇,包括Science, Nature, Cell 等雜志。
 
HS-AFM超高速視頻級原子力顯微鏡應用案例:
 
1.Video imaging of walking myosin V   實時觀察myosin V蛋白的運動
 
 
N. Kodera et al. Nature 468, 72 (2010). Kanazawa University
 
2.Real-space and real-time dynamics of CRISPR-Cas9   實時顯示CRISPR基因編輯
 
 
Mikihiro et al. Nature Communications, (2017). Kanazawa University

3. High-speed atomic force microscopy shows that annexin V stabilizes membranes on the second timescale
 
 
Miyagi A, et al. Nature Nanotechnology (2016)

4. IgGs are made for walking on bacterial and viral surfaces
 
 
J Preiner, et al. Nature Communications(2014)

5. Long-tip high-speed atomic force microscopy for nanometer-scale imaging in live cells
 
 
Mikihiro Shibata, et al. Scientific Reports(2015)

6. High-speed atomic force microscopy shows dynamic molecular processes in photoactivated bacteriorhodopsin
 
 
Shibata M, et al. Nature Nanotechnology (2010)

7. Tuning crystallization pathways through sequence engineering of biomimetic polymers
 
 
Xiang Ma, et al. Nature Materials (2017)

8. Lipid-bilayer-assisted two-dimensional self-assembly of DNA origami nanostructures
 
 
Yuki Suzuki, et al. Nature Communications(2015)
 
 
 
HS-AFM超高速視頻級原子力顯微鏡設備規格及配置參數:
 
 
 
基本參數:
 
 
SS-NEX 型可選配置:
 
 
 
已發表文獻(2017年):
 
1. Ando T.; "Directly watching biomolecules in action by high-speed atomic force microscopy"; Biophys. Rev. (2017)
2. Ando T.; "High-speed Atomic Force Microscopy for Observing Protein Molecules in Dynamic Action", Proceedings of SPIE 10328, Selected Papers from the 31st International Congress on High-Speed Imaging and Photonics (2017)
3. Aybeke E., Belliot G., Lemaire‐Ewing S., Estienney M., Lacroute Y., Pothier P., Bourillot E., Lesniewska, E.; "HS‐AFM and SERS Analysis of Murine Norovirus Infection: Involvement of the Lipid Rafts"; Small 13 1 (2017)
4. Cai W, Liu Z., Chen Y., Shang G.; "A Mini Review of the Key Components used for the Development of High-Speed Atomic Force Microscopy"; Science of Advanced Materials Vol. 9 Numb. 1 (2017) p.77-88
5. Colom A., Redondo-Morata L., Chiaruttini N., Roux A., Scheuring S.; "Dynamic remodeling of the dynamin helix during membrane constriction"; Proceedings of the National Academy of Sciences 114 21 (2017)
6. Dufrêne Y., Ando T., Garcia R., Alsteens D., Martinez-Martin D., Engel A., Gerber Ch., Müller D.; "Imaging modes of atomic force microscopy for application of molecular and cell biology"; Nat. Nanotechnol. 12 (2017) p.295-307
7. Harada H., Onoda A., Uchihashi T., Watanabe H., Sunagawa N., Samejima M., Igarashi K., Hayashi T.; "Interdomain flip-flop motion visualized in flavocytochrome cellobiose dehydrogenase using high-speed atomic force microscopy during catalysis"; Chemical Science (2017)
8. Karner A., Nimmervoll B., Plochberger B., Klotzsch E., Horner A., Knyazev D., Kuttner R., Winkler K., Winter L., Siligan Ch., Ollinger N., Pohl P., Preiner J.; "Tuning membrane protein mobility by confinement into nanodomains"; Nature Nanotechnology 12 3 (2017) p.260-266
9. Keya J., Inoue D., Suzuki Y., Kozai T., Ishikuro D., Kodera N., Uchihashi T., Kabir A., Endo M., Sada K., Kakugo A.; "High-Resolution Imaging of a Single Gliding Protofilament of Tubulins by HS-AFM" ; Scientific Reports 7 1 (2017)
10. Kim Y.; "An Advanced Characterization Method for the Elastic Modulus of Nanoscale Thin-Films Using a High-Frequency Micromechanical Resonator"; Materials 10 7 (2017)
11. Kim Y.; "An evaluation technique for high-frequency dynamic behavior of a sandwich microcantilever beam"; Journal of Sandwich Structures & Materials (2017)
12. Korolkov V., Baldoni M., Watanabe K., Taniguchi T., Besley E., Beton P.; "Supramolecular heterostructures formed by sequential epitaxial deposition of two-dimensional hydrogen-bonded arrays"; Nature Chemistry (2017)
13. Legrand B., Salvetat J.-P., Walter B., Faucher M., Théron D., Aimé J.-P.; "Multi-MHz micro-electro-mechanical sensors for atomic force microscopy"; Ultramicroscopy 175 (2017) p.46-57
14. Liao H.-S., Chih-Wen Yang, Hsien-Chen Ko, En-Te Hwu, Ing-Shouh Hwang; "Imaging initial formation processes of nanobubbles at the graphite–water interface through high-speed atomic force microscopy"; Applied Surface Science (2017)
15. Matsui S., Kureha T., Hiroshige S., Shibata M., Uchihashi T., Suzuki D.; "Fast Adsorption of Soft Hydrogel Microspheres on Solid Surfaces in Aqueous Solution"; Angewandte Chemie (2017)
16. Mierzwa B., Chiaruttini N., Redondo-Morata L., Moser von Filseck J., König J., Larios J., Poser I., Müller-Reichert T., Scheuring S., Roux A., Gerlich D.; "Dynamic subunit turnover in ESCRT-III assemblies is regulated by Vps4 to mediate membrane remodeling during cytokinesis"; Nature Cell Biology (2017)
17. Miyata K., Tracey J., Miyazawa K., Haapasilta V., Spijker P., Kawagoe Y., Foster A., Tsukamoto K., Fukuma T.; "Dissolution Processes at Step Edges of Calcite in Water Investigated by High-Speed Frequency Modulation Atomic Force Microscopy and Simulation"; Nano Lett. 17 7 (2017) p.4083-4089
18. Miyazawa K., Watkins M., Shluger A., Fukuma T.; "Influence of ions on two-dimensional and three-dimensional atomic force microscopy at fluorite–water interfaces"; Nanotechnology Vol. 28 Numb. 24 (2017)
19. Mohamed M., Kobayashi A., Taoka A., Watanabe-Nakayama T., Kikuchi Y., Hazawa M., Minamoto T., Fukumori Y., Kodera N., Uchihashi T., Ando T., Wong R.; "High-Speed Atomic Force Microscopy Reveals Loss of Nuclear Pore Resilience as a Dying Code in Colorectal Cancer Cells"; ACS Nano 11 6 (2017) p.5567-5578
20. Nievergelt A., Andany S., Adams J., Hannebelle M., Fantner G.; "Components for high-speed atomic force microscopy optimized for low phase-lag"; Proceedings of 2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) (2017)
21. Rangl M., Rima L., Klement J., Miyagi A., Keller S., Scheuring S.; "Real-time Visualization of Phospholipid Degradation by Outer Membrane Phospholipase A using High-Speed Atomic Force Microscopy"; Journal of Molecular Biology 429 7 (2017) p.977-986
22. Ren J., Zou Q.; "High-speed dynamic-mode atomic force microscopy imaging of polymers: an adaptive multiloop-mode approach"; Beilstein J. Nanotechnol. 8 (2017) p.1563-1570
23. Ricci M., Trewby W., Cafolla C., Voïtchovsky K.; "Direct observation of the dynamics of single metal ions at the interface with solids in aqueous solutions"; Scientific Reports 7 43234 (2017)
24. Rigato A., Miyagi A., Scheuring S., Rico F.; "High-frequency microrheology reveals cytoskeleton dynamics in living cells"; Nature Physics (2017) DOI: 10.1038/NPHYS4104
25. Ruan Y., Miyagi A., Wang X., Chami M., Boudker O., Scheuring S.; "Direct visualization of glutamate transporter elevator mechanism by high-speed AFM"; PNAS 114 7 (2017) p.1584-1588
26. Sadeghian H., Herfst R., Dekker B., Winters J., Bijnagte T., Rijnbeek R.; "High-throughput atomic force microscopes operating in parallel"; Review of Scientific Instruments 88 033703 (2017)
27. Sakiyama Y., Panatala R., Lim R.; "Structural Dynamics of the Nuclear Pore Complex"; Seminars in Cell and Developmental Biology (2017)
28. Shibata M., Watanabe H., Uchihashi T., Ando T., Yasuda R.; "High-speed atomic force microscopy imaging of live mammalian cells"; Biophysics and Physicobiology Vol. 14 (2017) p.127-135
29. Terahara N., Kodera N., Uchihashi T., Ando T., Namba K., Minamino T.; "Na+-induced structural transition of MotPS for stator assembly of the Bacillus flagellar motor"; Science Advances 3 11 eaao4119 (2017)
30. Uchihashi T., Scheuring S.; "Applications of high-speed atomic force microscopy to real-time visualization of dynamic biomolecular processes"; Biochim Biophys Acta. (2017)
31. Usukura E., Narita A., Yagi A., Sakai N., Uekusa Y., Imaoka Y., Ito S., Usukura J.; "A Cryosectioning Technique for the Observation of Intracellular Structures and Immunocytochemistry of Tissues in Atomic Force Microscopy (AFM)"; Scientific Reports 7 (2017)
32. Watanabe S., Ando T.; "High-speed XYZ-nanopositioner for scanning ion conductance microscopy"; Applied Physics Letters 111 11 (2017)
33. Watanabe-Nakayama T., Kodera N., Konno H., Ono K., Teplow D., Yamada M., Ando T.; "Nano-Space Video Imaging Reveals Structural Dynamics of Fibrous Protein Assembly and Relevant Enzymes"; Biophysical Journal 112 3 (2017)
34. Zhang Y., Tunuguntla R., Choi P., Noy A.; "Real-time dynamics of carbon nanotube porins in supported lipid membranes visualized by high-speed atomic force microscopy"; Philosophical Transactions of The Royal Society B Biological Sciences 372 (2017)
35. Zhang Y., Yoshida A., Sakai N., Uekusa Y., Kumeta M., Yoshimura S.; "In vivo dynamics of the cortical actin network revealed by fast-scanning atomic force microscopy" Microscopy 20 (2017) p.272-282 
 
更多文獻詳見:http://www.highspeedscanning.com/hs-afm-references.html
 
 
部分用戶列表:
相關公司:Quantum量子科學儀器貿易(北京)有限公司
聯系電話:010-85120280(聯系我時,請說明是在生物器材網了解)
E-mail:info@qd-china.com


用戶名: 密碼: 匿名 快速注冊 忘記密碼
評論只代表網友觀點,不代表本站觀點。 請輸入驗證碼: 8795
Copyright(C) 1998-2025 生物器材網 電話:021-64166852;13621656896 E-mail:info@bio-equip.com
主站蜘蛛池模板: 亚洲无码久久久久久久 | 国产精品乱码人妻一区二区三区 | 久久久婷婷 | 爆乳在线无码AV | 中文成人无字幕乱码精品区 | 无码国产成人午夜视频在线播放 | 激性欧美激情在线 | 亚洲自偷自偷图片视频专区 | 坐在男人嘴上让他添在线视频 | 国产日本免费 | 亚洲狠狠婷婷综合久久蜜芽 | 99久久免费国产精品6 | www.久久爱69.com | 国产免费一区二区三区四区五区 | 天天躁狠狠躁夜躁2020挡不住 | 高清自拍亚洲精品二区 | 欧美久操视频 | 毛片1级| 久久精品成人免费视频 | 精品1区2区3区4区 | 国产精品55夜色66夜色 | 在线免费一区二区 | 久久久中文字幕 | 永久免费av在线 | 揉啊嗯高潮孕妇视频 | 欧美三级视频日日操 | 韩国a级黄色 | 一区二区三区久久久久久 | 国产成人久久精品一区二区三区 | 毛片网站视频 | 在线观看www成人影院 | 黄色免费网站在线观看 | 国产一级a特黄大片做受在线观看 | 最新理论三级中文在线观看 | 香蕉网在线一区二区三区 | 日韩女同一区二区三区在线观看 | 国产手机在线亚洲精品观看 | 日韩精品一二三 | 婷婷777| 国产精品伦一区二区三区在线观看 | 九九超碰 |