Nanome is the ultimate interface for scientific discovery, starting with molecular data. Scientists at top pharmaceutical and chemical companies use Nanome to visualize, analyze, and collaborate on molecular structures across XR headsets, desktop, and web.

We started in 2015 with a simple premise: molecules are 3D objects, and the tools scientists use to work with them should be too. That conviction hasn't changed, but the product has expanded far beyond VR.

Today, Nanome is the market-leading real-time collaboration platform for molecular visualization. Multiple scientists can be inside the same molecular environment simultaneously, whether they're across the hall or across the world, on a headset or on a browser. XR isn't required. It's an option that makes the experience dramatically better, but the platform works wherever scientists already are.

MARA, our AI co-pilot (Molecular Analysis and Research Assistant), lives inside Nanome the way Siri lives inside the iPhone. Scientists can talk to MARA to run computations, query molecular databases, generate surfaces, and orchestrate complex research workflows using natural language. The spatial computing side gives scientists the ability to reach into a protein binding pocket and develop intuition that no amount of screen time on a flat monitor can produce. The AI side means they're not doing it alone.

We've had a customer use Nanome to compress an R&D analysis cycle from six months down to two or three days.

Drug discovery takes 10 years and $2.6 billion to bring a single drug to market. Most of that time, scientists are staring at 2D representations of 3D structures on flat screens. We think that's worth fixing.

When a chemist puts on a headset and steps inside a molecular structure, something shifts. They see things they missed on a monitor. They build spatial intuition that flat tools can't give them. And when MARA is there to pull up related literature, run a docking simulation, or flag a steric clash in real time, the whole feedback loop tightens.