Sacrificial templates present an effective pathway for gaining high-level control over nanoscale reaction products. Atomic layer deposition (ALD) is ideally suited for such approaches due to its ability to replicate the surface topography of a template material through the deposition of an ultrathin conformal layer. Herein, metal nanostructures are demonstrated as sacrificial templates for the formation of architecturally complex and deterministically positioned oxide nanoshells, open-topped nanobowls, vertically standing half-shells, and nanorings. The three-step process sees metal nanocrystals formed in periodic arrays, coated with an ALD-deposited oxide, and hollowed out with a selective etch through nanopores formed in the oxide shell. The procedure is further augmented through the use of a directional ion beam that is used to sculpt the oxide shells into bowl- and ring-like configurations. The functionality of the so-formed materials is demonstrated through their use as substrate-confined nanoreactors able to promote the growth and confinement of nanomaterials. Taken together, the work expands the design space for substrate-based nanomaterials, creates a platform for advancing functional surfaces and devices and, from a broader perspective, advances the use of ALD in forming complex nanomaterials.The nanofabrication of periodic arrays of structurally complex oxide nanoshells is demonstrated. The so-formed structures are demonstrated as substrate-confined nanoreactors able to synthesize nanomaterials within their confines.
Tuff, W. J., Hughes, R. A., Nieukirk, B. D., Ciambriello, L., Neal, R. D., Golze, S. D., Gavioli, L., Neretina, S., Periodic arrays of structurally complex oxide nanoshells and their use as substrate-confined nanoreactors, <<NANOSCALE>>, 2023; 15 (43): 17609-17620. [doi:10.1039/d3nr04345b] [https://hdl.handle.net/10807/258176]
Periodic arrays of structurally complex oxide nanoshells and their use as substrate-confined nanoreactors
Ciambriello, Luca;Gavioli, Luca;
2023
Abstract
Sacrificial templates present an effective pathway for gaining high-level control over nanoscale reaction products. Atomic layer deposition (ALD) is ideally suited for such approaches due to its ability to replicate the surface topography of a template material through the deposition of an ultrathin conformal layer. Herein, metal nanostructures are demonstrated as sacrificial templates for the formation of architecturally complex and deterministically positioned oxide nanoshells, open-topped nanobowls, vertically standing half-shells, and nanorings. The three-step process sees metal nanocrystals formed in periodic arrays, coated with an ALD-deposited oxide, and hollowed out with a selective etch through nanopores formed in the oxide shell. The procedure is further augmented through the use of a directional ion beam that is used to sculpt the oxide shells into bowl- and ring-like configurations. The functionality of the so-formed materials is demonstrated through their use as substrate-confined nanoreactors able to promote the growth and confinement of nanomaterials. Taken together, the work expands the design space for substrate-based nanomaterials, creates a platform for advancing functional surfaces and devices and, from a broader perspective, advances the use of ALD in forming complex nanomaterials.The nanofabrication of periodic arrays of structurally complex oxide nanoshells is demonstrated. The so-formed structures are demonstrated as substrate-confined nanoreactors able to synthesize nanomaterials within their confines.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.