Bioprocess monitoring is rapidly becoming a tool for achieving process understanding and control and, ultimately, for realizing high yields and quality product. Understanding which analytes matter ...

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 ...

Additive manufacturing has matured into a vital technology for producing complex metal and polymer components in aerospace, medical and automotive industries. Ensuring part quality and repeatability ...

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 ...

Researchers in Germany have developed a process monitoring and control system for injection molding cells that automatically detects deviations in product quality, identifies the most likely cause, ...

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

These models can be used either offline to provide the optimal process cycle, or online to provide optimal, real-time process control [3]. This is the target of the iREMO project (www.iremo.eu), an EC ...

Accurate monitoring of nanoparticle size and growth is essential to ensure scalability in the development of transfection vectors for gene delivery. This study highlights how Spatially Resolved-DLS ...

As a child, Maria Valero witnessed her diabetic father prick his finger several times a day to draw blood and check his glucose levels using an electronic monitor. She was concerned about the invasive ...

Reactive Monitoring is the reporting by the Secretariat, other sectors of UNESCO and the Advisory Bodies to the Committee on the state of conservation of specific World Heritage properties that are ...