Author
Marcus Sterling
He covers the validation phase of scaffold production, focusing on in-situ atomic force microscopy and the spectral output of UV curing lamps. He translates complex rheological data into accessible narratives regarding degradation kinetics.
20 Articles
Articles by
Marcus Sterling
The Vanishing Trellis: Printing Supports for New Human Cells
Advanced Bio-resorbable Resins
All rights reserved to infotoread.com
Building Tiny Homes for New Organs
Advanced Bio-resorbable Resins
All rights reserved to infotoread.com
Building a Better Body Frame with Tiny Ink Drops
Spectral Optimization and UV Curing
All rights reserved to infotoread.com
Why Your Next Implant Might Be Made in a Tiny Bubble
In-Situ Nanoscale Metrology
All rights reserved to infotoread.com
Small Details and Big Results: This Week's Network Picks
In-Situ Nanoscale Metrology
All rights reserved to infotoread.com
The Magic Trellis: How Tiny Printed Scaffolds Help Your Body Fix Itself
Degradation and Rheological Analysis
All rights reserved to infotoread.com
Why Your Next Big Injury Might Be Fixed with a Disappearing Map
Piezo-Electric Inkjet Deposition
All rights reserved to infotoread.com
The Vanishing Act: Building Body Parts That Disappear
The Disappearing Act: How Medical Scaffolds Fade Away
Printing the Future of Repair with Micro-Inertial Tools
Piezo-Electric Inkjet Deposition
All rights reserved to infotoread.com
The Nano-Architects: Building a Home for Your Cells
Degradation and Rheological Analysis
All rights reserved to infotoread.com
The Science of Disappearing Bridges: How Scaffolds Melt Away
Spectral Optimization and UV Curing
All rights reserved to infotoread.com
Printing Life: Why Your Next Medical Fix Might Start with an Inkjet
Plasma-Activated Substrate Engineering
All rights reserved to infotoread.com
The Tiny Invisible Ladders Helping Your Body Fix Itself
Plasma-Activated Substrate Engineering
All rights reserved to infotoread.com
The Art of the Micro-Print
Degradation and Rheological Analysis
All rights reserved to infotoread.com
The Magic of Disappearing Implants: How Bio-resorbable Polymers Work
Spectral Optimization and UV Curing
All rights reserved to infotoread.com
Scaling Micro-Inertial Fabrication for Clinical-Grade Biocompatible Scaffolds
Advanced Bio-resorbable Resins
All rights reserved to infotoread.com
Molecular Engineering of Protein-Infused Hydrogels in Micro-Inertial Deposition
Piezo-Electric Inkjet Deposition
All rights reserved to infotoread.com
Advanced Photopolymer Resin Engineering for Targeted Tissue Engineering Applications
In-Situ Nanoscale Metrology
All rights reserved to infotoread.com
