Bruker‘s NanoWizard® ULTRA Speed 3 BioAFM sets new standards in speed and performance. Advanced automation features and an unprecedented scanning speed of 1,400 lines per second have been combined in one instrument, that can be seamlessly integrated into advanced optical microscopy and super-resolution techniques. The system delivers correlated sample measurements and the comprehensive nanomechanical characterization of an extensive range of soft matter and living biological samples. Its automated fast-scanning and analysis capabilities maximize throughput and deliver outstanding performance. Novel, cutting-edge automation features open new possibilities for long-term, self-regulating experiment series and provide unrivaled sensitivity, reliability, and precision.
NanoWizard ULTRA Speed 3 features a host of new advanced functionalities:
Morphology: The new software feature DynAsyst and improved Dynamic PID enable easy investigation of fragile, unfixed samples at higher speeds and lowest forces.
Dynamics: A scanning speed of 1,400 lines/sec allows the real-time visualization of dynamic processes.
Nanomechanics: Enables fast, label-free, multiparametric characterization of nanoscale biomechanical properties.
Microrheology: An additional, optional fast Z-scanner with an innovative sensor technology generates reproducible force curves at highest speeds, significantly extending the frequency range for microrheological measurements.
NanoWizard ULTRA Speed 3 sets benchmark standards by delivering fast AFM scanning capabilities that can be combined with advanced optical techniques. Its tip-scanner technology achieves scanning speeds previously unattainable with conventional AFMs.
Nanoscale structural analysis and nanomechanical characterization deliver crucial insights into functionality at the molecular, single-cell, and cellular levels. NanoWizard ULTRA Speed 3 combines speed, automation, and precision with ease of use. Achieving high-caliber results is easier than ever before and paves the way for a host of new applications and groundbreaking scientific discoveries.
The visualization of dynamic molecular and cellular mechanisms and quantification of the associated kinetics and reaction rates advance our understanding of fundamental biological processes. In conjunction with advanced optics, ULTRA Speed 3 enables multiparametric observation of in-situ dynamics.
The culmination of Bruker’s pioneering work in the field of BioAFM, NanoWizard ULTRA Speed 3 incorporates cutting-edge innovations and a host of new advanced features. Its high degree of automation, speed, and functionality deliver best-in-class capabilities, significantly increasing the number of samples and positions that can be probed, maximizing throughput and enhancing productivity.
ULTRA Speed 3, with an intuitive user interface, customized and favorite workflows, and on-screen context help, is the ideal choice for multi-user environments and imaging facilities. Automated procedures and the choice between standard and advanced features enable experts and less experienced users alike to repeatably produce highest-quality data.
The advanced Data Processing software allows users to browse easily through thousands of images at specific locations, channels, and individual frames in their time-series data, all of which are efficiently saved in HDF5 container format. Various output formats can be exported automatically and simultaneously, such as individual processed data files, image videos or numerical data from cross-sections or histograms.
DynAsyst: Automated parameter adjustment in TappingMode for minimal force, utmost consistency, and unattended operation
PeakForce Tapping® with ScanAsyst®: The gold standard for fast and easy high-resolution imaging
PeakForce-QI™: The symbiosis of PeakForce Tapping and QI modes delivers speed and advanced force control for highly delicate samples
ExperimentPlanner: Predefinition of settings and parameters allows complex experiments to run automatically
ExperimentControl: Remote monitoring of long-term lab experiments via a browser on any device
NanoWizard ULTRA Speed 3 comprises a comprehensive range of tools for the investigation of the nanomechanical properties of samples ranging from single-molecules to single-cells and beyond. An extensive range of modes enable the study of structure, mechanobiology, and dynamics on soft and challenging samples. Perform high-resolution imaging and quantitative nanomechanical characterization of properties, such as Young’s modulus, adhesion, dissipation, and deformation, with optional modes, such as PeakForce-QI, PeakForce QNM®, or QI Advanced.
The new NestedScanner microrheology feature extends the operation of multiple Z-piezos, allowing fast analysis of viscoelastic properties. By optimizing use of the Z-piezos, high-speed, high-resolution imaging of steep surface structures with heights of up to 8 μm, e.g., living cells, bacteria, and tight junctions, is now simple.
The novel SmartMapping feature allows the flexible selection of multiple, user-defined 2D force maps. Numerous regions of interest (ROI) can be selected in advance and examined automatically, enabling the systematic study of large sample areas. The optimal range of force acquisition is continuously evaluated and automatically adjusted by XY and Z-motors in combination with the piezo scanners, delivering a degree of precision and flexibility second to none.
Setting new standards in correlative microscopy
NanoWizard ULTRA Speed 3 can be seamlessly integrated into advanced optical techniques. Optical guidance allows the fast and easy combination of measurements, while optimizing output and efficiency.
Enabling groundbreaking discoveries
The ability to trigger, control, and observe molecular reactions and cell-cell or cell-surface interactions in real time can significantly improve our understanding of fundamental biological mechanisms and chemical and physical processes.
NanoWizard ULTRA Speed 3 integrates seamlessly into advanced optics:
The new Vortis 2.2 controller delivers highspeed, low-noise DACs, and precise position sensor readout technology. Extended channel capabilities support the new proprietary 3D acceleration sensor technology for advanced feed-forward operation, high-performance data processing, and computing algorithms. The latest FPGA technology and dual core PowerPC ensure benchmark data processing rates. The large number of feedback modes and a powerful HV amplifier module facilitate high-speed applications. Passive cooling lowers acoustic noise during the measurement.
NanoWizard ULTRA Speed 3 supports the most extensive range of accessories and modes on the market today, greatly extending the range of applications and experiments possible. Accessories, such as the temperature and environment control options, e.g., gas/fluid exchange modules for perfusion and electrochemistry applications, enable the controlled, systematic study of complex phenomena. The properties of Bruker pre-calibrated cantilevers, manufactured at our fabrication facility, can be integrated into the SPM environment by a single click with the new QR-code reader option, significantly simplifying the initial steps of the experiment.
Temperature control options:
Fluid cell options:
Superior Versatility
Enhanced Usability
Bruker offers an extensive range of BioAFM system add-ons, accessories, and modes to deliver maximum experimental and sample control, superior versatility, and enhanced useability. These options extend the range of applications and experiments supported by Bruker BioAFMs far beyond what is possible with any other BioAFM system on the market today.
Available options include optical systems/accessories, electrochemistry solutions, electrical sample characterization, environmental control options, software modules, temperature control, acoustic and vibration isolation solutions, and more.
Browse our online accessories database or download our accessories handbook to learn more.
Our webinars cover best practices, introduce new products, provide quick solutions to tricky questions, and offer ideas for new applications, modes, or techniques.
Stefania A. Mari, Daniel J. Müller Lab. ETHZ, Basel, Switzerland
Assoc. Prof. Clemens Franz, WPI NanoLSI, Kanazawa University, Japan
Dr. Javier Tamayo, Bionanomechanics Lab., CSIC, IMN, Madrid, Spain