The Hidden World in a Drop of Water Unveiling Secrets with Liquid-Phase Scanning Tunneling Microscope (STM)

1. The Hidden World in a Drop of Water: Unveiling Secrets with Liquid-Phase Scanning Tunneling Microscope (STM) www.miafm.com

2. Picture this: you’re trying to understand the most intricate dance in nature how a drug latches onto a protein, or how a battery electrode truly charges. For years, we’ve had to study these events after the fact, like trying to understand a symphony from a single, frozen sheet of music. The magic happens in the flow, in the liquid environment where life and chemistry actually play out. That’s where the game changes. Using a scanning tunneling microscope in liquid (liquid-phase STM) is like getting a front-row seat to that symphony, watching the atomic performers move in real time. It’s a challenging endeavor, no doubt. Any researcher who’s tried scanning tunneling microscopy in liquid will tell you the technique introduces noise and complexity that’s difficult to tame. The slightest vibration, a tiny temperature shift, or the drift of the fluid itself can turn a crystal-clear atomic image into a blur. For a long time, getting meaningful data with a scanning tunneling microscope in liquid felt more like art than science. But what if your tools were robust enough to cut through that chaos? What if you could stop fighting your equipment and start focusing on your discovery? 01

3. Engineered for the Real World: Stability Where It Matters Most This is the problem we became obsessed with at Molecular Imaging. We asked a simple question: how do we build a scanning tunneling microscope in liquid that doesn’t just work on a perfect, vibration-free lab bench, but one that thrives in the unpredictable environment of a beaker? The answer wasn’t a simple accessory. It required a fundamental rethinking of the core technology. Our PicoPlus system was born from this challenge. We started with a brutally rigid mechanical frame. Why? Because in the world of nanoscale imaging, stiffness is silence. This high-resonance frequency design acts like a noise-cancelling headset for your probe, isolating it from the tiny tremors and whispers of the liquid around it. This ultra- low noise foundation is what makes atomic resolution not just a promise, but a repeatable result, even when performing scanning tunneling microscopy in liquid. Combine that with a top-down scanning approach, and you have a system that holds its ground, letting you track processes over time without losing your place. 02

4. Your Lab, Your Rules: A System That Adapts With You Here’s something we’ve learned from working with top researchers: no two experiments are ever the same. A setup perfect for studying corrosion in salty water is useless for imaging a delicate strand of DNA. That’s why we built our technology around a simple, powerful idea: modularity. Think of it like a professional camera system. You start with a brilliant core body, and then you choose the lenses for the shot you need. Need to watch a chemical reaction on an electrode? Snap on our Electrochemical (EC-AFM/STM) module. It’s like giving your microscope a lab coat and a beaker, allowing it to perform real-time, in-situ electrochemistry using scanning tunneling microscopy in liquid. Working with samples that can’t tolerate oxygen? Our Environmental Isolation Chambers (EICs) create a tiny, pristine, controlled atmosphere right on your sample stage, eliminating noise and contamination. And for our biology colleagues, our MAC Mode is a game-changer. It’s the gentle touch needed to image soft, living materials in their fluid home without poking or damaging them. This isn’t just customization; it’s about giving you the freedom to follow your scientific curiosity wherever it leads. 03

5. From Theory to Discovery: What You Can Actually Do So, what does this mean for your work? It means you’re no longer limited by your tools. You can push into new territories: In Biotech, watch an antibody find its target on a cell membrane, all in a physiological buffer, with the power of scanning tunneling microscope in liquid. In Materials Science, guide the self-assembly of nanowires or see how a polymer behaves when soaked in solvent using real-time liquid-phase STM. In Electrochemistry, don’t just measure current watch the solid-electrolyte interface form and evolve with atomic precision with scanning tunneling microscopy in liquid. This is the new frontier of nanoscience. It’s not about looking at a static world anymore; it’s about observing, understanding, and influencing the dynamic world that exists all around us and within us. At Molecular Imaging, we’re not just building microscopes. We’re building windows into the hidden, liquid world where the most exciting science happens. We provide the stability, the flexibility, and the atomic- level clarity you need to stop imagining and start observing especially when using scanning tunneling microscopy in liquid. 04 Original Content: https://www.apsense.com/article/867408-the-hidden-world-in-a-drop-of- water-unveiling-secrets.html

6. Thank You! Get In Touch 1-888-644-0389 www.miafm.com songxu@nanocuetech.com 3485 Middle belt, West Bloomfield, Michigan, 48323