Template Fabrication

One of the most popular and probably the cheapest method of nanolithography is to use nanometer size templates that can be used to fabricate nanowires. In some 

Type of Membrane Pore Diameter (nm) Ai/erage Density (m 

Etched ion track (polymer-mainly 5-500 10 (random pores) 

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R. Hernandez, L. Richter, S. Semancik, S. Stranick, and T. E. Mallouk, Template fabrication of protein-functionaUzed gold-poly(pyrrole)-gold segmented nanowires, Chem. Mater. 16, 3431— 3438 (2004). 

Li+ intercalation material (V. M. Cepak and C. R. Martin, unpublished). These results, which will be the subject of a future paper, show that other synthetic methodologies, in addition to CVD, can be used to make micro-structured battery electrodes like those described here. In addition, the underlying microtubular current collector does not have to be Au. Microtubules composed of graphite [35] or other metals [1,3] (e.g., Ni) could be used. Finally, for the advantages noted above to be realized in practical cells, large-scale template-fabrication methods would have to be developed. 

Maury P, Escalante M, Reinhoudt DN, Huskens J (2005) Directed assembly of nanoparticles onto polymer-imprinted or chemically patterned templates fabricated by nanoimprint lithography. Adv Mater 17 2718-2723... 

Figure 9. Templating fabrication of Pt nanoparticles prepared by the controlled removal of CO from the Chini cluster anions [Pt3(CO)6]n (n = 5,6) synthesized in FSM-16, and the Pt nanowires by the exposure of H2PtCl6/FSM-16 with 2-propanol and water to y-rays or UV-light.

Taniguchi, J., Koga, K., Kogo, Y, and I. Miyamoto. 2006. Rapid and three-dimensional nanoimprint template fabrication technology using ion beam lithography. Microelectronic Engineering 83 940-943. 

Fig. 1.3 Strategy for nanopatteming functional materials employing templates based on copolymer self-assembly with double-gyroid morphology. This approach is particularly versatile since it separates the template fabrication top row) from the templating of functional materials bottom row). 1 Copolymer synthesis. 2 Self-assembly into the double-gyroid morphology. 3 Selective degradation of one block yields a mesoporous template. 4 Templating of functional materials via various deposition techniques. 5 Removal of polymeric matrix. 6 Assembly of functional devices...

A crucial requirement for the successful replication of the polymer scaffold by electroplating is for the mesopores to extend across both fihn interfaces to enable electrolyte infiltration. While a possible nonporous layer at the Iree-surface can be etched subsequent to template fabrication, this is not a feasible option for a wetting layer... 

Among the various methods for creating pores, the templating-fabrication strategy can afford a variety of porous networks with a wide range of pore sizes, well-defined morphologies with controllable length scales, and various chemical functionalities... 

Hernandez, R.M., et al. 2004. Template fabrication of protein-functionalized gold-polypyrrole-gold segmented nanowires. Chem Mater 16 3431. 

Wirtz, M. Martin, C. R. Template-fabricated gold nanowires and nanotubes. Adv. Mater. 2003,15, 455 58. 

E. Donath, S. Moya, B. Neu, G. B. Siikhorukov, R. Georgieva, A. Voigt, H. Bamnler, H. Kiesewetter and H. Moehwald, Hollow polymer shells from biological templates Fabrication and potential applications. Chemistry — a European Journal, 8(23), 5481-5485 (2002). 

Templated fabrication of InSb nanowires for nanoelectronics. J Nanomater, doi 1155/2008/678759... 

The principles of electroless deposition in templates are exemplified for Au deposition developed in Martin s laboratory for the template fabrication of NEEs, nanotubes, and other shaped gold nanomaterials (5, 7). The electroless plating of gold (5) consists of three steps (i) sensitization with Sn + (ii) reduction of Ag+ to produce discrete Ag metal nanoparticles (iii) galvanic displacement of Ag particles by reduction of gold followed by auto-catalytic reduction of more Au. 

Fig. 37.6 Scanning electron micrographs showing the surface of electrode templates fabricated from (A) c-axis-ori-ented YBa2Cu307-s film, (B) /c-axis-oriented YBa2Cu3-O7-S film, and (C) a-axis-oriented YBa2Cu307-s film. All superconductor films were supported on MgO(lOO) substrates and were —1500 A thick.

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