SEOULTECH Researchers Develop Sodium-Based Next-Generation Smart Electrochromic Windows
Researchers unlock sodium-based electrochromic capacity in nanorods by introducing thermally removable dopants, offering a practical solution for thermal regulation
Although small lithium ions can easily access the hexagonal tunnels, larger sodium ions, despite being more abundant and cost-effective, are considered as limitations due to steric hindrance from dopants inside the tunnels.
In an innovative breakthrough, a team of researchers led by Assistant Professor Sungyeon Heo, along with Mr. Janghan Na, both from Seoul National University of Science and Technology,
"Our strategy allows effective utilization of the hexagonal tunnels for sodium-ion insertion. Consequently, we demonstrate that low-cost sodium electrolytes can achieve large NIR modulation, comparable to that of lithium-based system. This leads to efficient heat-shielding performance without relying on expensive lithium-based systems even with an ultrathin film thickness of 150 nm," says Dr. Heo.
The nanomaterials developed in this research have strong potential for large-scale production. All synthesis procedures are conducted within a single reactor batch, with precise control over reaction pressure and temperature. This simplicity enables scale-up production, particularly when equipped with integrated systems that automatically monitor and control reaction temperature and pressure. Moreover, since the materials are synthesized in a colloidal form, they are not limited to electrochromic applications. Colloidal nanomaterials can be readily processed into coatings, or composite systems, allowing their use in a wide range of fields beyond electrochromism.
This research offers a practical solution for thermal regulation under diverse climate conditions. In extremely hot regions, such as parts of
Within the next 5 to 10 years, this progress could enable broader applicability of smart windows and adaptive buildings that automatically regulate heat and light. Such systems would reduce reliance on air conditioning and heating, leading to lower energy consumption while improving indoor comfort.
"Our study demonstrates material designs and processing strategies that are compatible with low-cost Earth-abundant components, such as sodium electrolyte, and scalable synthesis methods, such as single reactor batch. Ultimately, our research supports a transition toward more sustainable environment and could finally reduce energy demand in everyday life," concludes
Reference
Title of original paper: Unlocking Na+-Based Electrochromic Capacity in Hexagonal Tungsten Oxide Nanorods via Thermally Removable Dopants
Journal: Nano Letters
DOI: 10.1021/acs.nanolett.5c04697
About Seoul National University of Science and Technology (SEOULTECH)
Website: https://en.seoultech.ac.kr/
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SOURCE Seoul National University of Science and Technology (SEOULTECH)
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