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EAGER: Multiphoton Polymerization with Optical Trap Assisted Nanopatterning

$100,000FY2011ENGNSF

Princeton University, Princeton NJ

Investigators

Abstract

This EArly-concept Grant for Exploratory Research (EAGER) award provides funding to develop an innovative 3-D additive manufacturing process capable of producing uniform metal and polymer features with nanometer resolution for applications in optics, photonics, biomaterials and other areas. Here, we propose to combine the patterning resolution and scaling benefits provided by the recently developed optical trap assisted nanopatterning method with the 3-D additive capabilities of ultrafast multiphoton polymerization processing. However in order to achieve this goal, it is necessary to attain a deeper understanding of these processes and demonstrate the feasibility of such a combined approach. To this end, this proposal will focus on experimentally and numerically probing fundamental proof?]of?]principle questions related to the compatibility of ultrafast laser processing and polymer precursor solutions with optically trapped microspheres, and the ability to polymerize precursor solutions in the vicinity of microspheres without contamination or redeposition. Numerical studies will include finite difference time domain simulations for optical propagation through the liquid solution and polystyrene microspheres. Whereas, experiments will use both in situ imaging during laser processing and ex situ characterization to identify the material response. If successful, this research will have a profound impact on a number of diverse application areas where multiscale and multifunctional 3-D architectures are needed to advance functionality, such as in photonic materials, optoelectronics, microfluidics, tissue engineering, etc. Broad dissemination in these areas through publications and international presentations will ensure researchers gain widespread benefit from our studies. But perhaps more importantly, the success of this research will provide a demonstration of feasibility that is necessary to secure funding through traditional vehicles in order to further develop this potentially transformative materials processing approach. Finally, we envision this research as a seed for an international collaboration between researchers at Princeton and University of Erlangen-Nurenberg, School of Advanced Optical Technologies (UEN-SAOT) in Germany for 3-D laser based manufacturing. To this end, funds have been allocated to support the travel to UEN-SAOT where the PIs will help train other researchers and students in this developing technology.

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