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Rodriguez, Jon ; Shin, Hyun-Cheol ; Stava, Eric ; Gwozdz, Paul V. ; Yu, Minrui ; Sánchez Pérez, José R. ; Lagally, Max G. ; Blick, Robert H. ( , Optical Materials Express)
We demonstrate a novel approach for achieving rapid, consistent, and controllable micro-pore fabrication in single-crystalline quartz. These micro-pores are essential for applications in biology, i.e., studying ion channels in general and mechano-sensitive channels (MSC) in particular. The fabrication process consists of direct material ablation using pulsed UV light from a 193 nm excimer laser. These pulses ablate single-crystalline quartz chips by burning a laser-induced plasma in a tri-layer structure. Controllable plasma confinement and thus pore size is achieved by sandwiching a thin layer of a selected organic solution between the quartz chip and different substrates. This solution causes the confined micro-plasma to generate special ablation conditions, to create uniformly sized and shaped nanopores.
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Kreft, Dustin J. ; Mourokh, Lev G. ; Shin, Hyuncheol ; Bichler, Max ; Wegscheider, Werner ; Blick, Robert H. ( , Physical Review B)
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Sanchez-Cano, Carlos ; Alvarez-Puebla, Ramon A. ; Abendroth, John M. ; Beck, Tobias ; Blick, Robert ; Cao, Yuan ; Caruso, Frank ; Chakraborty, Indranath ; Chapman, Henry N. ; Chen, Chunying ; et al ( , ACS Nano)null (Ed.)