Community Research and Development Information Service - CORDIS


Biomineralization for lithography and microelectronics (BIO-LITHO) - Publishable Executive Summary

Project ID: 31541
Funded under: FP6-NMP


The impact of biomineralization processes on lithographic and microelectronic production processes has not yet been explored. As opposed to conventional industrial manufacturing, the biological synthesis of silica occurs under mild physiological conditions of low temperatures and pressures, with clear advantages in terms of cost-effectiveness, parallel production, and impact on the environment. The integration of nature-mimic biomineralization processes with micro- and nanofabrication will be a unique route to make them usable in the medium-long term for industrial application and production. In particular, some peculiar proteins of sponges (silicateins) catalyze the reaction of silica polymerization to give ordered structures. Besides this catalytic activity, when the proteins are assembled into mesoscopic filaments, they serve as scaffolds that spatially direct the synthesis of polysiloxanes over the surface of the protein filaments. Hence, these biomolecules present the combined characteristics of: (i) chemical action (catalysis) for the formation of silica, and (ii) patterning action, by driving the silica on the surface of the filaments. We plan to exploit this unique combination within a novel technology, whose demonstrator will be the realization of patterned, aligned assembly of silica fibers, and their employment as insulating layers for prototype transistor devices. Two parallel strategies will be pursued for the production of large amounts of silicatein: (i) expression of the recombinant proteins, and (ii) development of in vitro primmorph cultures. Soft lithography techniques will be used for the controlled patterned deposition of molecules. Specific approaches will be designed and implemented, for the hierarchical assembly of silicatein fibers into functional networks. The multidisciplinary team involved in the proposed project has the specific know-how in biosilicification/lithography and the intellectual property rights in enzymatic silica formation.

Download application/pdf (204488)

Follow us on: RSS Facebook Twitter YouTube Managed by the EU Publications Office Top