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Cypher VRS1250 视频级高速原子力显微镜(AFM)

Cypher VRS1250 AFM较第一代Cypher VRS提升了两倍的扫描速度,达到每秒1250行。这项性能提升不仅让时间分辨率增强至每秒45帧,对空间分辨率来说,亦能在稍低的帧速下得到更多的影像像素。与此同时,兼具高稳定成像特性、易于使用的密闭样品腔室、兼容气体灌注实验设置,以及各种操作模式和配件,Cypher VRS1250让您的实验野心更具底气。

    • 为超高速、超高分辨率成像而生

      • 稳定的成像特性让捕捉纳米动态过程不受漂移或是参数调整的影响

      • 不仅设置容易,扫图成像也很简单

      • 提供多种模式和配件——拥有Cypher ES的所有功能


        询价 增加到询价列表

        Cypher VRS1250 Brochure
        Cypher Family Brochure

        为超高速、超高分辨率成像而生

        • 在成像速度和分辨率之间取得最佳平衡
        • Cypher AFM特色:简单而稳定得到高分辨成像
        • Cypher VRS1250让视频级成像达到每秒45帧图

        稳定成像,只需专注于样品

        • Cypher的先进设计将热膨胀纳入考量,大大降低了热漂移的问题
        • blueDrive光热激发技术让长时间成像实验也很稳定
        • 封闭式样品腔室让成像环境稳定,能够无损观测精细生物分子样品

        更简单的操作,更好的成果

        • Cypher VRS1250和其他的Cypher AFM一样容易操作
        • 马达控制激光、对准校直光接收器以及简易探针装置让实验准备快而简单
        • 封闭式样品腔室,无需担心液体外泄
        • 专有软件设计,为报告或论文准备AFM视频数据无需头疼

        拥有Cypher AFM所有的功能和配件

        • Cypher VRS1250支持Cypher ES 环境控制AFM所有的功能和配件
        • 可加热和冷却样品以及所有操作模式
        • Cypher VRS1250不仅是视频级AFM,适用于多研究方向的课题组或研究分析平台

        Included Operating Modes

        Contact mode
        DART PFM
        Dual AC
        Dual AC Resonance Tracking (DART)
        Electrostatic Force Microscopy (EFM)
        Force curves
        Force Mapping Mode (force volume)
        Force modulation
        Frequency modulation
        Kelvin Probe Force Microscopy (KPFM)
        Lateral Force Mode (LFM)
        Loss tangent imaging
        Magnetic Force Microscopy (MFM)
        Nanolithography
        Nanomanipulation
        Phase imaging
        Piezoresponse Force Microscopy (PFM)
        Switching spectroscopy PFM
        Tapping mode (AC mode)
        Tapping mode with digital Q control
        Vector PFM

        Included because Cypher VRS comes with blueDrive

        AM-FM Viscoelastic Mapping Mode
        Contact Resonance Viscoelastic Mapping Mode

        Optional Operating Modes

        Conductive AFM (CAFM) with ORCA™ and Eclipse™ Mode
        Current mapping with Fast Force Mapping
        Electrochemical Strain Microscopy (ESM)
        Fast Force Mapping Mode
        High voltage PFM
        Nanoscale Time Dependent Dielectric Breakdown (nanoTDDB)
        Scanning Capacitance Microscopy (SCM)
        Scanning Microwave Impedance Microscopy (sMIM)
        Scanning Tunneling Microscopy (STM)

        Kalinin, S. V., Zhang, S., Valleti, M., Pyles, H., Baker, D., De Yoreo, J. J., & Ziatdinov, M. (2021). Disentangling Rotational Dynamics and Ordering Transitions in a System of Self-Organizing Protein Nanorods via Rotationally Invariant Latent Representations. ACS nano. https://doi.org/10.1021/acsnano.0c08914

        Ziatdinov, M., Zhang, S., Dollar, O., Pfaendtner, J., Mundy, C. J., Li, X., ... & Kalinin, S. V. (2020). Quantifying the dynamics of protein self-organization using deep learning analysis of atomic force microscopy data. Nano Letters, 21(1), 158-165. https://dx.doi.org/10.1021/acs.nanolett.0c03447

        Chen, J., Zhu, E., Liu, J., Zhang, S., Lin, Z., Duan, X., ... & De Yoreo, J. J. (2018). Building two-dimensional materials one row at a time: Avoiding the nucleation barrier. Science, 362(6419), 1135-1139. https://doi.org/10.1126/science.aau4146

        Mao, X., Li, K., Liu, M., Wang, X., Zhao, T., An, B., ... & Wang, L. (2019). Directing curli polymerization with DNA origami nucleators. Nature communications, 10(1), 1-10. https://doi.org/10.1038/s41467-019-09369-6

        Sigdel, K. P., Wilt, L. A., Marsh, B. P., Roberts, A. G., & King, G. M. (2018). The conformation and dynamics of P-glycoprotein in a lipid bilayer investigated by atomic force microscopy. Biochemical pharmacology, 156, 302-311. https://doi.org/10.1016/j.bcp.2018.08.017

        Zhu, H., Wang, X., Cui, Y., Cai, J., Tian, F., Wang, J., & Qiu, H. (2019). Blooming of Block Copolymer Micelles into Complex Nanostructures on a Surface. Macromolecules, 52(9), 3479-3485. https://doi.org/10.1021/acs.macromol.9b00197

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