<b>2019</b> -<ahref="https://www.nature.com/articles/s41378-019-0055-4"> Tourlomousis F. et al., "Machine Learning Metrology of Cell Confinement in Melt
<ahref="http://micronanomanufacturing.asmedigitalcollection.asme.org/article.aspx?articleid=2667688"><b>2018 - Tourlomousis F. et al. <i>"Investigation of Cellular Confinement in Three-Dimensional
Microscale Fibrous Substrates: Fabrication and Metrology"</i>, Journal of Micro and Nano-Manufacturing</b></a>
<b>2018</b> -<ahref="http://micronanomanufacturing.asmedigitalcollection.asme.org/article.aspx?articleid=2667688">Tourlomousis F. et al., "Investigation of Cellular Confinement in Three-Dimensional
Microscale Fibrous Substrates: Fabrication and Metrology", Journal of Micro and Nano-Manufacturing, ASME</a>
</li>
<li><i>[Bioprinting] [Biometrology]</i><br>
<b>2017</b> - Ding H., Tourlomousis F. et al. "Bioprinting Multidimensional Constructs: A
<li><ahref="https://web.stevens.edu/facultyprofile/?id=8">Dilhan Kalyon</a>, Professor & Director of <ahref="http://www.hfmi.stevens.edu/"> Highly Filled Materials Institute</a></li>
<li><ahref="https://daltonlab.org/">Paul Dalton</a>, Professor, University of Wurzburg</li>