Two-dimensional transition metal honeycomb realized: Hf on Ir(111)

Linfei Li; Yeliang Wang; Shengyi Xie; Xian Bin Li; Yu Qi Wang; Rongting Wu; Hongbo Sun; Shengbai Zhang; Hong Jun Gao

doi:10.1021/nl4019287

Two-dimensional transition metal honeycomb realized: Hf on Ir(111)

Linfei Li, Yeliang Wang^*, Shengyi Xie, Xian Bin Li, Yu Qi Wang, Rongting Wu, Hongbo Sun, Shengbai Zhang, Hong Jun Gao

^*Corresponding author for this work

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

105 Citations (Scopus)

Abstract

Two-dimensional (2D) honeycomb systems made of elements with d electrons are rare. Here, we report the fabrication of a transition metal (TM) 2D layer, namely, hafnium crystalline layers on Ir(111). Experimental characterization reveals that the Hf layer has its own honeycomb lattice, morphologically identical to graphene. First-principles calculations provide evidence for directional bonding between adjacent Hf atoms, analogous to carbon atoms in graphene. Calculations further suggest that the freestanding Hf honeycomb could be ferromagnetic with magnetic moment μ/Hf = 1.46 μ_B. The realization and investigation of TM honeycomb layers extend the scope of 2D structures and could bring about novel properties for technological applications.

Original language	English
Pages (from-to)	4671-4674
Number of pages	4
Journal	Nano Letters
Volume	13
Issue number	10
DOIs	https://doi.org/10.1021/nl4019287
Publication status	Published - 9 Oct 2013
Externally published	Yes

Keywords

Honeycomb lattice
STM
epitaxial growth
hafnium

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10.1021/nl4019287

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title = "Two-dimensional transition metal honeycomb realized: Hf on Ir(111)",

abstract = "Two-dimensional (2D) honeycomb systems made of elements with d electrons are rare. Here, we report the fabrication of a transition metal (TM) 2D layer, namely, hafnium crystalline layers on Ir(111). Experimental characterization reveals that the Hf layer has its own honeycomb lattice, morphologically identical to graphene. First-principles calculations provide evidence for directional bonding between adjacent Hf atoms, analogous to carbon atoms in graphene. Calculations further suggest that the freestanding Hf honeycomb could be ferromagnetic with magnetic moment μ/Hf = 1.46 μB. The realization and investigation of TM honeycomb layers extend the scope of 2D structures and could bring about novel properties for technological applications.",

keywords = "Honeycomb lattice, STM, epitaxial growth, hafnium",

author = "Linfei Li and Yeliang Wang and Shengyi Xie and Li, {Xian Bin} and Wang, {Yu Qi} and Rongting Wu and Hongbo Sun and Shengbai Zhang and Gao, {Hong Jun}",

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TY - JOUR

T1 - Two-dimensional transition metal honeycomb realized

T2 - Hf on Ir(111)

AU - Li, Linfei

AU - Wang, Yeliang

AU - Xie, Shengyi

AU - Li, Xian Bin

AU - Wang, Yu Qi

AU - Wu, Rongting

AU - Sun, Hongbo

AU - Zhang, Shengbai

AU - Gao, Hong Jun

PY - 2013/10/9

Y1 - 2013/10/9

N2 - Two-dimensional (2D) honeycomb systems made of elements with d electrons are rare. Here, we report the fabrication of a transition metal (TM) 2D layer, namely, hafnium crystalline layers on Ir(111). Experimental characterization reveals that the Hf layer has its own honeycomb lattice, morphologically identical to graphene. First-principles calculations provide evidence for directional bonding between adjacent Hf atoms, analogous to carbon atoms in graphene. Calculations further suggest that the freestanding Hf honeycomb could be ferromagnetic with magnetic moment μ/Hf = 1.46 μB. The realization and investigation of TM honeycomb layers extend the scope of 2D structures and could bring about novel properties for technological applications.

AB - Two-dimensional (2D) honeycomb systems made of elements with d electrons are rare. Here, we report the fabrication of a transition metal (TM) 2D layer, namely, hafnium crystalline layers on Ir(111). Experimental characterization reveals that the Hf layer has its own honeycomb lattice, morphologically identical to graphene. First-principles calculations provide evidence for directional bonding between adjacent Hf atoms, analogous to carbon atoms in graphene. Calculations further suggest that the freestanding Hf honeycomb could be ferromagnetic with magnetic moment μ/Hf = 1.46 μB. The realization and investigation of TM honeycomb layers extend the scope of 2D structures and could bring about novel properties for technological applications.

KW - Honeycomb lattice

KW - STM

KW - epitaxial growth

KW - hafnium

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U2 - 10.1021/nl4019287

DO - 10.1021/nl4019287

M3 - Article

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JO - Nano Letters

JF - Nano Letters

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ER -

Two-dimensional transition metal honeycomb realized: Hf on Ir(111)

Abstract

Keywords

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