: Visualizing how biological cells or molecules react to treated vs. untreated surfaces.
While the specific visuals of si_010.mp4 depict the experimental results of these antifouling polymer brushes, related research in similar scientific contexts often uses such videos to demonstrate: KIRM-010.mp4
: Enhancing the performance and lifespan of micro-scale medical devices that interact with biological systems. Content of the Supporting Media : Visualizing how biological cells or molecules react
: Utilizing techniques like intravital microscopy or optical coherence tomography (OCT) to see internal or surface-level biological processes in real-time. Content of the Supporting Media : Utilizing techniques
Supplementary Material * am3c17293_si_001.pdf (1.1MB, pdf) * am3c17293_si_002.avi (3.3MB, avi) * am3c17293_si_003.avi (4.2MB, avi) PubMed Central (PMC) (.gov)
This video is part of a series of supporting materials (ranging from si_001.pdf to si_012.avi ) that provide visual evidence for research published on (Bio-Microelectromechanical Systems). The study focuses on:
Durable, Ultrathin, and Antifouling Polymer Brush Coating for ... - PMC