Focus on the cells for smart biomanufacturing.

Real-time, AI-driven monitoring system

Learn More

Built for Those Who Build the Future.

We developed a Next gen monitoring system that reveals the state of the cells in real time, through in-situ microscopy, AI, and digital twins. Seamlessly integrating with existing bioreactors, our solution permits data-based and timely decision making, increasing efficiency in fermentation operations and driving down costs.

Sensor

Biomanufacturing is the Future But It's Not There Yet.

Biomanufacturing can transform how we produce food, materials, and medicine. But to compete with traditional industries, it must scale at least 20x and reduce costs. Current production relies on indirect measurements, manual sampling, and expert intuition, limiting efficiency and predictability. To make sustainable production viable at scale, we need deeper vision, and much, much more data.

Technology advances are needed to lower production costs

Inconsistent Yields: Batch-to-batch variability makes it impossible to predict outcomes or optimize processes effectively.
Delayed Detection: Critical issues are discovered too late, leading to costly failed batches and extended development cycles.
Overwhelming Data: Producers are overwhelmed with data from disconnected measurements that do not translate to understanding.
Digital Yeast

Your Digital Window Into Every Cell.

The cells are the drivers of fermentation, but are currently ignored. Their images hold tons of information, comparable to genomic or metabolomic data, but available in real-time. To unlock this information, we combine proprietary hardware with advanced AI-powered software. This integration allows us to generate the missing, high-quality, cellular data ourselves.

Dashboard

Smart Vision.

In today's Industry 4.0 landscape, we combine advanced microscopy, AI and digital twin modelling. This way, we provide unprecedented visibility into cellular health, metabolic activity, and productivity—all in real-time. With our real-time deep vision, we feed our digital twin model with the actual cell status. This way, we empower true digitalization and unlock predictive control.

How it works

How It Works.

Our sensor is inserted directly into the bioreactor to capture continuous, real-time images of the cells. An AI model analyzes this data and displays it through a simple dashboard with clear, meaningful conclusions so operators can know when to feed or harvest, and detect contaminations early. No stains. No sampling. No data cluttering. No guesswork.

Isotype

Built by Scientists, Driven by Purpose.

At Skopia, we are a science-driven startup on a mission to empower the transition to sustainable manufacturing. We combine decades of experience in biology, optics, AI, and engineering to create technology that works in the real world. Every person on our interdisciplinary team brings a different perspective and background, but we are all fueled by the conviction that another way of producing is not only necessary and fair, it’s also doable.


The next industrial revolution is here, and biology is leading the way.

Contact us to explore how Skopia can give you the vision needed to drive innovation and scale.

Get in Touch


Follow us LinkedIn
Innovation Park Logo Parque de la Innovación

+54lab Campos Salles 1300, C1429 Cdad. Autónoma de Buenos Aires, Argentina