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基于折射率和原理设计用于自动驾驶的高近红外反射黑色纳米颗粒。

Designing a highly near infrared-reflective black nanoparticles for autonomous driving based on the refractive index and principle.

作者信息

Otgonbayar Zambaga, Kim Jiwon, Jekal Suk, Kim Chan-Gyo, Noh Jungchul, Oh Won-Chun, Yoon Chang-Min

机构信息

Department of Chemical and Biological Engineering, Hanbat National University, 125 Dongseo-daero, Yuseong-gu, Daejeon 34158, Korea.

McKetta Department of Chemical Engineering and Texas Material Institute, The University of Texas at Austin, Austin, TX 78712, USA.

出版信息

J Colloid Interface Sci. 2024 Aug;667:663-678. doi: 10.1016/j.jcis.2024.04.133. Epub 2024 Apr 21.

DOI:10.1016/j.jcis.2024.04.133
PMID:38670010
Abstract

HYPOTHESIS

The development of highly NIR reflective black single-shell hollow nanoparticles (BSS-HNPs) can overcome the Light Detection and Ranging (LiDAR) sensor limitations of dark-tone materials. The crystalline phase of TiO and the refractive index can be controlled by calcination temperature. The formation of hollow structure and the refractive index is expected to simultaneously increase the light reflection and LiDAR detectability.

EXPERIMENTS

The BSS-HNPs are synthesized using the sol-gel method, calcination, NaBH reduction, and etching to form a hollow structure with true blackness. The computational bandgap calculation is conducted to determine the bandgap energy (E) of the white and black TiO with different crystalline structures. The blackness of the as-synthesized materials is determined by the Commission on Illumination (CIE) Lab* color system.

FINDINGS

The hydrophilic nature of BSS-HNPs enables the formulation of hydrophilic paints, allowing the mono-layer coating. With the synergistic effects of hollow structure and the refractive index, BSS-HNPs manifested superb NIR reflectance at LiDAR detection wavelengths. The high detectability, blackness, and hollow structure of BSS-HNPs can expand the variety of LiDAR-detectable dark-tone materials.

摘要

假设

开发高近红外反射黑色单壳空心纳米颗粒(BSS-HNP)可以克服暗色调材料在光探测和测距(LiDAR)传感器方面的局限性。TiO的晶相和折射率可以通过煅烧温度来控制。空心结构的形成和折射率有望同时提高光反射率和LiDAR可探测性。

实验

采用溶胶-凝胶法、煅烧、NaBH还原和蚀刻合成BSS-HNP,以形成具有真黑色的空心结构。进行计算带隙计算以确定不同晶体结构的白色和黑色TiO的带隙能量(E)。合成材料的黑色度由照明委员会(CIE)Lab*颜色系统确定。

研究结果

BSS-HNP的亲水性使其能够配制亲水性涂料,从而实现单层涂层。在空心结构和折射率的协同作用下,BSS-HNP在LiDAR检测波长下表现出卓越的近红外反射率。BSS-HNP的高可探测性、黑色度和空心结构可以扩大LiDAR可探测暗色调材料的种类。

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