In the current fast changing nanoscience and biotechnology era, precision and flexibility are all that matter. Scientists all around the world are exploring the smallest constructs of life and matter all the way down to atoms and molecules. Agilent AFM (Atomic Force Microscopy) technology is an excellent choice in this regard. With this knowledge, Molecular Imaging has provided scientists with the ability to see the specifics, down to the nanoscale, and this progress has taken over what we can accomplish in materials science, life sciences, and electrochemistry.

Seeing the Unseen: Atomic and Molecular Detail with Molecular Imaging

Introducing the next generation AFM systems, Molecular Imaging opens up a new world that could not be seen by conventional microscopes. Such tools render it simple to attain the atomic and molecular resolutions in a broad spectrum of scientific fields. Whether you’re imaging living cells, analyzing electrochemistry, or investigating polymers and nanolithography, our systems provide the sharp detail you need.

Agilent AFM and Keysight AFM solutions are built for flexibility. Their modular, customizable designs let researchers quickly adapt to unique experimental needs. Studying fragile biological materials in liquids? Analyzing conductive surfaces in challenging environments? With Molecular Imaging, you’re always equipped for precision and versatility.

Clear Images, Endless Possibilities

The core of our innovation lies in the PicoPlus AFM system. This flagship model is an ideal combination of high performance and user-friendliness. It has a mechanical structure that reduces noise, providing high quality, top-down scanning.

What sets the PicoPlus apart is its stable imaging in any setting. Sample scanning in liquids, gases, corrosive conditions or even at high temperatures with excellent clarity. The versatility of this enables it to be an indispensable resource to anyone in the field of life sciences or materials research.

Made to Grow With Your Research

Every experiment is unique, and our modular technology is built to keep up. Agilent AFM systems from Molecular Imaging offer easy customization, so you’re never boxed in. Choose specialized modes and add-ons, such as:

• MAC Mode AFM, gentle enough for the softest samples.
• Electrochemical AFM/SPM, for real-time reaction studies.
• Environmental Isolation Chambers, for ultra-quiet, controlled experiments.
• Multi-Frequency AFM, revealing advanced electrical and mechanical properties.

This means your AFM system can evolve with your needs, no compromises, no limits.

Real Impact Across Diverse Fields

From biotech and life sciences to materials science, electrochemistry, and semiconductor research, Agilent and Keysight AFM systems are trusted tools. They allow you to:

• Get a visual understanding of the interactions between biomolecules and see live cells in action.
• Improve the strength, conductivity or reactivity of study nanostructures and materials.
• Map electrical surface properties, analyze corrosion, and be perfect next-gen semiconductors.

No matter your specialty, a Molecular Imaging AFM can unlock new research possibilities.

Support That Powers Discovery

To keep your projects moving smoothly, we back every system with complete support materials, like a detailed Keysight Atomic Force Microscope Manual and top-quality Keysight Atomic Force Microscope parts. Our team works alongside researchers to tailor each system to their goals, providing reliable technology and a lasting partnership.

Leading the Future of Nanoscience

Innovation happens when precision is matched by flexibility. Integrating Agilent and Keysight AFM technology into your work opens new doors at the smallest scale, whether you’re dissecting protein molecules or mapping circuits atom by atom.

Our aim at Molecular Imaging is simple: deliver atomic resolution, adaptability, and superb environmental control so that researchers can push the boundaries of what’s possible.

Every time you capture an image or analyze a surface, you’re part of shaping the future of nanoscience and biotechnology, one tiny detail at a time.