A Dual Catalyst Strategy for Controlling Aluminum Nanocrystal Growth

Christian R. Jacobson; Gang Wu; Lawrence B. Alemany; Gopal Narmada Naidu; Minhan Lou; Yigao Yuan; Aaron Bayles; Benjamin D. Clark; Yukun Cheng; Arzeena Ali; Ah Lim Tsai; Ian A. Tonks; Peter Nordlander; Naomi J. Halas

doi:10.1021/acs.nanolett.2c01854

A Dual Catalyst Strategy for Controlling Aluminum Nanocrystal Growth

Christian R. Jacobson, Gang Wu, Lawrence B. Alemany, Gopal Narmada Naidu, Minhan Lou, Yigao Yuan, Aaron Bayles, Benjamin D. Clark, Yukun Cheng, Arzeena Ali, Ah Lim Tsai, Ian A. Tonks, Peter Nordlander, Naomi J. Halas

Chemistry (Twin Cities)

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The synthesis of Al nanocrystals (Al NCs) is a rapidly expanding field, but there are few strategies for size and morphology control. Here we introduce a dual catalyst approach for the synthesis of Al NCs to control both NC size and shape. By using one catalyst that nucleates growth more rapidly than a second catalyst whose ligands affect NC morphology during growth, one can obtain both size and shape control of the resulting Al NCs. The combination of the two catalysts (1) titanium isopropoxide (TIP), for rapid nucleation, and (2) Tebbe's reagent, for specific facet-promoting growth, yields {100}-faceted Al NCs with tunable diameters between 35 and 65 nm. This dual-catalyst strategy could dramatically expand the possible outcomes for Al NC growth, opening the door to new controlled morphologies and a deeper understanding of earth-abundant plasmonic nanocrystal synthesis.

Original language	English (US)
Pages (from-to)	5570-5574
Number of pages	5
Journal	Nano letters
Volume	22
Issue number	13
DOIs	https://doi.org/10.1021/acs.nanolett.2c01854
State	Published - Jul 13 2022

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© 2022 American Chemical Society. All rights reserved.

Keywords

Nanocubes
Tebbe's reagent
aluminum
nanocrystals
nanoparticles
plasmonics
titanocene

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abstract = "The synthesis of Al nanocrystals (Al NCs) is a rapidly expanding field, but there are few strategies for size and morphology control. Here we introduce a dual catalyst approach for the synthesis of Al NCs to control both NC size and shape. By using one catalyst that nucleates growth more rapidly than a second catalyst whose ligands affect NC morphology during growth, one can obtain both size and shape control of the resulting Al NCs. The combination of the two catalysts (1) titanium isopropoxide (TIP), for rapid nucleation, and (2) Tebbe's reagent, for specific facet-promoting growth, yields {100}-faceted Al NCs with tunable diameters between 35 and 65 nm. This dual-catalyst strategy could dramatically expand the possible outcomes for Al NC growth, opening the door to new controlled morphologies and a deeper understanding of earth-abundant plasmonic nanocrystal synthesis.",

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AU - Jacobson, Christian R.

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AU - Alemany, Lawrence B.

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AU - Lou, Minhan

AU - Yuan, Yigao

AU - Bayles, Aaron

AU - Clark, Benjamin D.

AU - Cheng, Yukun

AU - Ali, Arzeena

AU - Tsai, Ah Lim

AU - Tonks, Ian A.

AU - Nordlander, Peter

AU - Halas, Naomi J.

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AB - The synthesis of Al nanocrystals (Al NCs) is a rapidly expanding field, but there are few strategies for size and morphology control. Here we introduce a dual catalyst approach for the synthesis of Al NCs to control both NC size and shape. By using one catalyst that nucleates growth more rapidly than a second catalyst whose ligands affect NC morphology during growth, one can obtain both size and shape control of the resulting Al NCs. The combination of the two catalysts (1) titanium isopropoxide (TIP), for rapid nucleation, and (2) Tebbe's reagent, for specific facet-promoting growth, yields {100}-faceted Al NCs with tunable diameters between 35 and 65 nm. This dual-catalyst strategy could dramatically expand the possible outcomes for Al NC growth, opening the door to new controlled morphologies and a deeper understanding of earth-abundant plasmonic nanocrystal synthesis.

KW - Nanocubes

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KW - nanoparticles

KW - plasmonics

KW - titanocene

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A Dual Catalyst Strategy for Controlling Aluminum Nanocrystal Growth

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