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Analysis of Mold Insert Fabrication for the Processing of Microfluidic Chip The microfluidic chip has been used as an example to discuss different mold insert materials by micro hot-embossing molding. For the mold insert, this stud... YK Shen,JD Lin,RH Hong - 《Polymer Engineering & Science》...
Guy, Hollow silicon microneedle fabrication using advanced plasma etch technologies for applications in transdermal drug delivery. Lab. Chip. 20(15), 2788–2795 (2020). https://doi.org/10.1039/d0lc00567c Article Google Scholar A. Bukhamsin, K. Moussi, R. Tao, G. Lubineau, I. Blilou,...
Microscale robots have been the focus of extensive research efforts resulting in various innovative developments that broaden their capabilities and applications. The rational design of materials has been the cornerstone for developing and innovating mic
4.2 Integration of lab on chip and smart materials 4.3 Fabrication of microfluidic devices_helpful hints 4.4 Experimental microfluidic setup 4.5 Synthesis of nanoparticles in microfluidic chips 4.6 Nonequilibrium behavior and confinement 4.7 Making a model of a microfluidic process 4.8 Simulation of microfl...
Fabrication of a bio-MEMS based cell-chip for toxicity monitoring A bio-MEMS based cell-chip that can detect a specific toxicity was fabricated by patterning and immobilizing bioluminescent bacteria in a microfluidic chip... SK Yoo,HL Jin,SS Yun,... - 《Biosensors & Bioelectronics》 被引量:...
Monodisperse polyethylene glycol diacrylate hydrogel microsphere formation by oxygen-controlled photopolymerization in a microfluidic device. Lab Chip 16, 1457–1465 (2016). CAS Google Scholar Cha, C. et al. Microfluidics-assisted fabrication of gelatin-silica core–shell microgels for injectable tissue ...
5.1.1 Fabrication of the UBoC device The Universal Biomaterial-on-Chip (UBoC, Fig. 1) is a modular microfluidic device that was designed and built to enable in vitro cell culture on different biomaterials of varying dimensions and physical properties. The device is composed of two main component...
Advance “bottom-up” paradigms for materials self-assembly There remains a broader opportunity to augment or move beyond current fabrication techniques in order to exploit new paradigms for “programmable”67,68,69self-assembling materials (e.g., “addressable” DNA assemblies, frustrated assembly)....
Wearable enzyme-based biosensors enable advanced healthcare diagnostics through the monitoring of biomarkers and physiological states. The integration of materials engineering and enzyme conjugation has established the groundwork for advancements in mode