2006
DOI: 10.1063/1.2345253
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Controlled preparation and electron emission properties of three-dimensional micropatterned aligned carbon nanotubes

Abstract: Electrical and field-emission properties of chemically anchored single-walled carbon nanotube patterns Appl. Phys. Lett. 87, 013114 (2005); 10.1063/1.1968430Three-dimensional simulations of field emission through an oscillating barrier from a (10,0) carbon nanotube J.

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Cited by 14 publications
(17 citation statements)
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“…Dai and co‐workers have developed a simple, but very effective and versatile dry contact transfer technique for the controlled preparation of 3D perpendicularly aligned CNT micropatterns 144. 145 As schematically illustrated in Figure 9, this work starts with adhering a TEM grid onto Scotch tape as a mask, followed by sputter coating with silver through this mask (Figure 9 a).…”
Section: Post‐synthetic Approaches To Cnt Assemblymentioning
confidence: 99%
“…Dai and co‐workers have developed a simple, but very effective and versatile dry contact transfer technique for the controlled preparation of 3D perpendicularly aligned CNT micropatterns 144. 145 As schematically illustrated in Figure 9, this work starts with adhering a TEM grid onto Scotch tape as a mask, followed by sputter coating with silver through this mask (Figure 9 a).…”
Section: Post‐synthetic Approaches To Cnt Assemblymentioning
confidence: 99%
“…A different method is the so-called “contact transfer” for producing micropatterns of the aligned carbon nanotubes by pressing on the adhesive layer of Scotch tape pre-patterned with a non-adhesive layer, followed by peeling the Scotch tape off to obtain positive and negative patterns [70]. 3D multicomponent micropatterns were synthesized by direct growth using masks produced by contact transfer [71]. Another example is the patterned growth of 3D interposed VA-SWCNTs and VA-MWCNTs by activating selective regions of iron substrates used for the synthesis of VA-MWCNTs with a thin layer of Al for the growth of VA-SWCNTs [72].…”
Section: Reviewmentioning
confidence: 99%
“…Enhanced electromagnetic field effects can be generated close to the metal surface, which stem from the electromagnetic coupling between nanoparticles or from periodically ordered metal nanostructures, making it possible to transfer optical signals along the nanoparticle array. [16][17][18][19][20] In this paper, we emphasize on the mutual interaction between core/shell NPs in ferrofluids under the influence of the external magnetic field. The ferrofluid is a type of colloidal suspension, in which single domain magnetic particles (about 10 nm in diameter) are dispersed in the polar or non-polar liquid.…”
Section: Introductionmentioning
confidence: 99%