Se Nanowire Crystal Formation via Oxidation of 2D HfSe2: A Solid-State, In Situ Reaction Coupling for Heterogeneous Integration Technologies

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Nano Materials Pub Date : 2025-04-09 DOI:10.1021/acsanm.5c0030810.1021/acsanm.5c00308

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 and Stephan Hofmann*,

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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 nanowires with diameters ranging from ∼45 nm to 1.9 μm and lengths up to 43 μm depending on temperature and process time. We discuss the coupled reaction kinetics and pathways for application-relevant integrated process designs and connect diverse literature on the oxidation of transition metal dichalcogenides, Se polymerization and crystallization studies, and prior synthetic strategies for producing Se nanowires.

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二维HfSe2氧化形成硒纳米线晶体：非均相集成技术的固态原位反应耦合

在从量子电子学到生物医学设备的应用中，低维纳米材料的有效异质集成需要对不同的形成和界面反应的详细了解，以及这些过程的协同能力。我们报道了通过低温（30-150°C）大气氧化二维HfSe2晶体形成1D Se纳米线。从脱落的HfSe2薄片在SiO2/Si晶圆载体上开始的局部表面结合工艺不涉及湿化学，使我们能够实现光操作反应筛选，并探索相关的参数空间和基础机制。Hf氧化使埋藏的铪- hfse2界面处的Se析出，形成非晶态Se，形成聚集体、水泡和界面膜。我们发现，在扩散到堆叠表面后，根据温度和工艺时间的不同，这种Se可以结晶成直径从~ 45 nm到1.9 μm，长度可达43 μm的三角形Se纳米线。我们讨论了耦合反应动力学和应用相关集成工艺设计的途径，并连接了有关过渡金属二硫族化物氧化，Se聚合和结晶研究以及生产Se纳米线的现有合成策略的各种文献。

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来源期刊

ACS Applied Nano Materials Multiple-

CiteScore

8.30

自引率

3.40%

发文量

1601

期刊介绍： ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.