A Novel Approach for Colloidal Lithography: From Dry Particle Assembly to High-Throughput Nanofabrication.

We introduce a novel approach for colloidal lithography based on the dry particle assembly into a dense monolayer on an elastomer, followed by mechanical transfer to a substrate of any material and curvature. This method can be implemented either manually or automatically and it produces large area patterns with the quality obtained by the state-of-the-art colloidal lithography at a very high throughput. We first demonstrated the fabrication of nanopatterns with a periodicity ranging between 200 nm and 2 μm.

Elastic Microstructures: Combining Biochemical, Mechanical, and Topographical Cues for the Effective Activation and Proliferation of Cytotoxic T Cells.

The ex vivo activation and proliferation of cytotoxic T cells are critical steps in adoptive immunotherapy. Today, T cells are activated by stimulation with antibody-coated magnetic beads, traditionally used for cell separation. Yet, efficient and controlled activation and proliferation of T cells require new antibody-bearing materials, which, in particular, deliver mechanical and topographic cues sensed by T cells.