The work carried out per objective during the fellowship has been the following:
1. the wells to trap single cells have been fabricated by soft lithography;
2. the masters replicated by soft lithography have been fabricated by standard lithography as by two-photon polymerization;
3. single bacterial cells have been successfully isolated.
Throughout the project, the fellow had the opportunity to be introduced to the fabrication techniques of micro- and nano- robots. She was involved in the preparation of a review manuscript on small-scale machines driven by external power sources published on Advanced Materials (X. Chen, B. Jang, D. Ahmed, C. Hu, C. De Marco, M. Hoop, F. Mushtaq, B. J. Nelson, S. Pané*, Small‐Scale Machines Driven by External Power Sources Adv. Mater. 2018, 30, 1705061). During her training period, she had also the opportunity to contribute to the preparation of a manuscript on template-assisted electroforming of fully semi-hard-magnetic helical microactuators (G. Chatzipirpiridis, C. de Marco, E. Pellicer, O. Ergeneman, J. Sort, B. J. Nelson, and S. Pané*, Template-Assisted Electroforming of Fully Semi-Hard-Magnetic Helical Microactuators, Adv. Eng. Mater. 2018, 1800179). That led to the conceptualization of the 4D printing technique and to the investigation of 3D shaped shape-memory materials as promising and alternative solutions to fabricate the 3D printed microfluidic valves (C. de Marco, S. Pané, B. J. Nelson*, 4D printing and robotics. Sci. Robot. 3, eaau0449 (2018), 2 publications in preparation). Moreover, the fellow had the opportunity to transfer her know-how about surfaces functionalization and characterization (X. Wang, C. Hu*, L. Schurz, C. De Marco, X. Chen, S. Pané and B. J. Nelson, Surface Chemistry-Mediated Control of Individual Magnetic Helical Microswimmers in a Swarm, ACS Nano, accepted, 1 publication in preparation).