2010
DOI: 10.1021/la1004787
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Directing the Formation of Nanostructured Rings via Local Oxidation

Abstract: We provide compelling evidence that ring formation in solutions of thiol-passivated Au nanoparticles is driven by breath figure dynamics. A method for the controlled placement of rings of nanoparticles on a solid substrate, which exploits variations in substrate wettability to fix the positions of the submicrometer water droplets formed in the breath figure process, has been developed. This is achieved by heterogeneously patterning hydrogen-terminated silicon substrates with oxide regions that act as adsorptio… Show more

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Cited by 9 publications
(14 citation statements)
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“…Nanofluid dewetting offers a significant number of alternative pathways towards the generation of rings of nanoparticles and nanorods on solid substrates. Many groups have reported the formation of nanoparticle rings, with diameters ranging from a few hundred nm to a few micrometres, composed of, for example, Ag [14], Au [13,16], Ni [51], FePt [52], and polypyrrole [53] nanoparticles. Due to the complex physical and chemical processes involved in nanofluid dewetting, a wide variety of mechanisms have been put forward to explain the formation of rings of nanoparticles following solvent evaporation.…”
Section: Nanoparticle Ringsmentioning
confidence: 99%
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“…Nanofluid dewetting offers a significant number of alternative pathways towards the generation of rings of nanoparticles and nanorods on solid substrates. Many groups have reported the formation of nanoparticle rings, with diameters ranging from a few hundred nm to a few micrometres, composed of, for example, Ag [14], Au [13,16], Ni [51], FePt [52], and polypyrrole [53] nanoparticles. Due to the complex physical and chemical processes involved in nanofluid dewetting, a wide variety of mechanisms have been put forward to explain the formation of rings of nanoparticles following solvent evaporation.…”
Section: Nanoparticle Ringsmentioning
confidence: 99%
“…The small droplets of water that condense on the substrate, due to evaporative cooling, template the formation of nanorings. This highly versatile technique has been employed on a range of solutes such as nanoparticles [16], polymers [62], hybrid nanoparticle-polymer systems [63], and single-molecule magnets [64].…”
Section: Nanoparticle Ringsmentioning
confidence: 99%
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“…Hence, patterning methodologies that can achieve a more scalable patterning of nanomaterials in micro or mesoscale is highly desirable. For example, evaporative assembly40,45,46,78 has been demonstrated to be capable of creating a highly controlled pattern of microstructures at that span from the nanoscale to the centimeter scale 254–264. Nevertheless, evaporative colloidal assembly remains a complex and dynamic phenomenon that is extremely sensitive to a wide range of properties.…”
Section: Discussionmentioning
confidence: 99%
“…This can mitigate the coffee‐ring phenomenon, which Song and co‐workers demonstrated by assembling polystyrene nanoparticles to form a range of microstructures from flat disks to dome structures with an increasing height to diameter ratio 231. In addition to counter‐acting the coffee‐ring effect, nonequilibrium dewetting processes can be leveraged to produce a plethora of patterns through the modification of factors such as nanoparticle concentration in the ink, the solvent used to form printable ink, method of deposition, and the free surface energy of the substrate237 For example, isolated islands,254–256 worm‐like domains,257 interconnected cellular networks with continuous labyrinthine structures,258–261 and ring structures262–264 have been reported with gold, latex, and silver nanoparticles.…”
Section: Evaporative Patterningmentioning
confidence: 99%