R. Amin Et Al. , "Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach," MICROMACHINES , vol.11, no.6, 2020
Amin, R. Et Al. 2020. Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach. MICROMACHINES , vol.11, no.6 .
Amin, R., Ghaderinezhad, F., Bridge, C., Temirel, M., Jones, S., Toloueinia, P., ... Tasoglu, S.(2020). Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach. MICROMACHINES , vol.11, no.6.
Amin, Reza Et Al. "Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach," MICROMACHINES , vol.11, no.6, 2020
Amin, Reza Et Al. "Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach." MICROMACHINES , vol.11, no.6, 2020
Amin, R. Et Al. (2020) . "Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach." MICROMACHINES , vol.11, no.6.
@article{article, author={Reza Amin Et Al. }, title={Pushing the Limits of Spatial Assay Resolution for Paper-Based Microfluidics Using Low-Cost and High-Throughput Pen Plotter Approach}, journal={MICROMACHINES}, year=2020}