Se Nanowire Crystal Formation via Oxidation of 2D HfSe2: A Solid-State, In Situ Reaction Coupling for Heterogeneous Integration Technologies
Sunvir Sahota, Irina Chircă, Oliver J. Burton, Hao Yu, Max Rimmer, Jinfeng Yang, Kyungseo Park, Arthur Summers, Siddika Mertdinc-Ulkuseven, Matthew Lindley, Sarah J. Haigh, Stephan Hofmann

TL;DR
This paper describes a new method to create selenium nanowires by oxidizing 2D HfSe2 at low temperatures without using wet chemistry.
Contribution
A solid-state, in situ oxidation method for forming Se nanowires from 2D HfSe2 is introduced.
Findings
Se nanowires with diameters from 45 nm to 1.9 μm and lengths up to 43 μm are formed via HfSe2 oxidation.
The process involves amorphous Se segregation and subsequent crystallization into trigonal nanowires.
Reaction kinetics and mechanisms are analyzed for integration into heterogeneous technologies.
Abstract
Effective heterogeneous integration of low-dimensional nanomaterials in applications ranging from quantum electronics to biomedical devices requires a detailed understanding of different formation and interfacing reactions and the ability to synergize these processes. We report the formation of 1D Se nanowires via low-temperature (30–150 °C) atmospheric oxidation of 2D HfSe2 crystals. The localized, surface-bound process starting from exfoliated HfSe2 flakes on a SiO2/Si wafer support does not involve wet chemistry and allows us to implement optical operando reaction screening and explore the relevant parameter space and underpinning mechanisms. Hf oxidation frees Se at the buried hafnia–HfSe2 interface, which segregates as amorphous Se, forming aggregates, blisters, and interfacial films. We show that upon diffusion to the stack surface, this Se can crystallize into trigonal Se…
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Taxonomy
Topics2D Materials and Applications · Chalcogenide Semiconductor Thin Films · Quantum Dots Synthesis And Properties
