Ready to turn a simple photo into a professional 3D model? In today’s tutorial, I’ll show you exactly how to create a 3D ...

In this summit, learn how scientists use 3D cell models to uncover treatment resistance, improve biological relevance, and accelerate therapeutic innovation.

Scientists create a world-first 3D cell model to help develop treatments for devastating lip injuries Scientists have successfully immortalized lip cells, allowing new treatments for injuries and ...

In a groundbreaking fusion of biology and technology, scientists have successfully 3D printed a tiny elephant inside a living ...

This article from Molecular Devices explores how cell painting can be used in a 3D breast cancer spheroid model for image-based phenotypic profiling.

As 3D cell culture becomes a cornerstone of modern R&D, achieving consistency and reproducibility in liquid handling is more critical than ever. We’re excited to offer you free access to this new ...

3D cell models like spheroids and organoids are transforming the way we study complex biological processes—but they come with challenges. To meet this need, Sartorius has introduced the Incucyte® CX3, ...

Our platform integrates cutting-edge 3D cell model architectures, matrices, and precision drop-on-demand technology, facilitating a deeper understanding of complex biological systems.

This article explores high-content imaging and a 3D bio-printed liver model for the evaluation of the toxicity effects of compounds.

The life science group Sartorius (Göttingen, Germany) has launched the new Incucyte ® CX3 Live-Cell Analysis System, delivering the most advanced capabilities for 3D cell culture applications.

Our platform integrates cutting-edge 3D cell model architectures, matrices, and precision drop-on-demand technology, facilitating a deeper understanding of complex biological systems.