Using the ForceRobot® overcomes the limitations of traditional force measurements. The ForceRobot® automates routine procedures and provides software support for experimental design, data acquisition and evaluation.
The basis for a meaningful interpretation of force spectroscopy experiments is a large number of reproducible data sets. The ForceRobot® overcomes the limitations of traditional force measurements by automating routine procedures and providing intelligent software for experimental design, data acquisition and evaluation. Tens of thousands of force curves are generated in a matter of hours in unattended mode, and force curves without events are automatically filtered out before processing.
集成的CCD摄像机可确保轻松地对齐激光检测系统,还允许探测和样品观察以查找样品斑点或监视尖端或样品更改。最后,当系统在无人看管的操作中提供高质量的数据时,用户可以专注于实验结果。
The quality of the force spectroscopy data is vital for successful analysis. The lowest electronic noise floor and the most rigid mechanical design are essential. The highest accuracy and stability of the instrument is ensured by integrated capacitive position sensors with exceptional performance. For minimized drift, the system design is symmetric.
For the detection of smallest variations in force curves JPK improved the sensitivity and increased the detection bandwidth without compromising the noise levels. The high sampling rate and virtually unlimited number of data points per force curve complete this unique instrument.
The mechanical properties of single molecules are strongly influenced by their environment. The unique environmental control of ForceRobot® is tailored to this requirement, with heating and cooling available over a wide range of temperatures. This enables the study of biological samples at physiologically relevant temperatures or polymer samples in phase transition. The JPK Fluidics Module™ allows the design and performance of experiments with different buffer composition, pH value or chemical agents. The ForceRobot® is fully compatible with a wide range of different JPK liquid cells and temperature stages.
Application examples:
Bruker’s BioAFMs allow life science and biophysics researchers to further their investigations in the fields of cell mechanics and adhesion, mechanobiology, cell-cell and cell-surface interactions, cell dynamics, and cell morphology. We have collected a gallery of images demonstrating a few of these applications.
Optical systems/accessories, electrochemistry solutions, electrical sample characterization, environmental control options, software modules, temperature control, acoustic and vibration isolation solutions and more. Bruker provides you with the right accessories to control your sample conditions and to perform successful experiments.
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