Batch processing and testing is a mainstay of the biopharmaceutical industry today. But, as operations become increasingly automated and continuous and integrated manufacturing is adapted more widely, ...

The semiconductor manufacturing process involves many steps, including, but not limited to, film deposition, photolithography, etching, and chemical mechanical polishing (CMP). Contamination can ...

There is potential to improve process efficiency, the final product, and direct process optimization through process monitoring – specifically through tracking the chemical changes that occur as raw ...

As upstream process development increasingly relies on high-throughput bioreactor platforms, the ability to generate dense, ...

Bioprocess monitoring and control have been around since the beginning of therapeutic biotechnology, borrowing methodologies from industrial biotech and chemical/pharmaceutical processing. During the ...

AI-driven process monitoring enhances the qualification of additively manufactured stainless-steel parts. By analysing high-frequency welding current and voltage signals in both the time and frequency ...

The factory floor of 2025 bears little resemblance to its counterpart from just five years ago. For many manufacturers, the days of clipboard-wielding technicians making rounds are gone, replaced by ...

This article presents the use of sensors in enabling continuous and reliable process monitoring. It presents the accurate and repeatable measurement, the frequency and scheduling of measurements, ...

In this interview, industry experts Nimesh Khadka and Keith Freel explore how Raman-based PAT enhances hot melt extrusion by enabling real-time API monitoring, improving process control, and ...

Bioreactors have become irreplaceable tools in bioprocessing, revolutionizing the production of many biotechnological products. 1,2 They offer optimized and controlled environments to enhance cell ...