锑掺杂氧化锡纳米晶体中局域表面等离子体共振的配体调控

Ligand Tuning of Localized Surface Plasmon Resonances in Antimony-Doped Tin Oxide Nanocrystals.

作者信息

Balitskii Olexiy, Mashkov Oleksandr, Barabash Anastasiia, Rehm Viktor, Afify Hany A, Li Ning, Hammer Maria S, Brabec Christoph J, Eigen Andreas, Halik Marcus, Yarema Olesya, Yarema Maksym, Wood Vanessa, Stifter David, Heiss Wolfgang

机构信息

Institute-Materials for Electronics and Energy Technology (i-MEET), Department of Materials Science and Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg, Energy Campus Nürnberg, Fürtherstraße 250, 90429 Nürnberg, Germany.

Department of Electronics, Lviv Ivan Franko National University, Dragomanov Str., 50, 79005 Lviv, Ukraine.

出版信息

Nanomaterials (Basel). 2022 Oct 4;12(19):3469. doi: 10.3390/nano12193469.

DOI:10.3390/nano12193469

PMID:36234596

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9565614/

Abstract

Aliovalent-doped metal oxide nanocrystals exhibiting localized surface plasmons (LSPRs) are applied in systems that require reflection/scattering/absorption in infrared and optical transparency in visible. Indium tin oxide (ITO) is currently leading the field, but indium resources are known to be very restricted. Antimony-doped tin oxide (ATO) is a cheap candidate to substitute the ITO, but it exhibits less advantageous electronic properties and limited control of the LSPRs. To date, LSPR tuning in ATO NCs has been achieved electrochemically and by aliovalent doping, with a significant decrease in doping efficiency with an increasing doping level. Here, we synthesize plasmonic ATO nanocrystals (NCs) via a solvothermal route and demonstrate ligand exchange to tune the LSPR energies. Attachment of ligands acting as Lewis acids and bases results in LSPR peak shifts with a doping efficiency overcoming those by aliovalent doping. Thus, this strategy is of potential interest for plasmon implementations, which are of potential interest for infrared upconversion, smart glazing, heat absorbers, or thermal barriers.

摘要

具有局域表面等离子体共振（LSPRs）的异价掺杂金属氧化物纳米晶体被应用于需要在红外波段进行反射/散射/吸收以及在可见光波段具备光学透明性的系统中。氧化铟锡（ITO）目前在该领域处于领先地位，但已知铟资源非常有限。锑掺杂的氧化锡（ATO）是替代ITO的一种廉价候选材料，但其电子性能优势较小且对LSPRs的控制有限。迄今为止，ATO纳米晶体（NCs）中的LSPR调谐已通过电化学方法和异价掺杂实现，但随着掺杂水平的增加，掺杂效率显著降低。在此，我们通过溶剂热法合成了等离子体ATO纳米晶体（NCs），并展示了通过配体交换来调谐LSPR能量。作为路易斯酸和碱的配体的附着导致LSPR峰发生位移，其掺杂效率超过了异价掺杂的效率。因此，该策略对于等离子体应用具有潜在的意义，而等离子体应用对于红外上转换、智能玻璃、吸热器或热障具有潜在的意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1db3/9565614/4f5c0ac8b7ef/nanomaterials-12-03469-g001.jpg

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锑掺杂氧化锡纳米晶体中局域表面等离子体共振的配体调控

Ligand Tuning of Localized Surface Plasmon Resonances in Antimony-Doped Tin Oxide Nanocrystals.

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