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Designing Novel LiDAR-Detectable Plate-Type Materials: Synthesis, Chemistry, and Practical Application for Autonomous Working Environment

Suk Jekal, Zambaga Otgonbayar, Jungchul Noh, Minki Sa, Jiwon Kim, Chan-Gyo Kim, Yeon-Ryong Chu, Ha-Yeong Kim, Seulki Song, Hyuntae Choi, Won‐Chun Oh, Chang‐Min Yoon

2024ACS Applied Materials & Interfaces21 citationsDOI

Abstract

Plate-type hollow black TiO 2 (HL/BT) with a high NIR reflectance was fabricated for the first time as a LiDAR-detectable black material. A TiO 2 layer was formed on commercial-grade glass by using the sol–gel method to obtain a plate-type structure. The glass template was then etched with hydrofluoric acid to form a hollow structure, and blackness was further achieved through NaBH 4 reduction, which altered the oxidation state of TiO 2 to black Ti x O 2 x –1 or Ti 4+ to Ti 3+ and Ti 2+ . The blackness of the HL/BT material was maintained by a novel approach that involved etching prior to reduction. The thickness of the TiO 2 layer was controlled to maximize the NIR reflectance when applied as paint. The HL/BT material with a thickness of 140 nm (HL/BT140) showed a blackness ( L *) of 13.3 and high NIR reflectance of 23.6% at a wavelength of 905 nm. This is attributed to the effective light reflection at the interface created by the TiO 2 layer and the hollow structure. Plate-type HL/BT140 provides excellent spreadability, durability, and thermal stability in practical paint applications compared with sphere-type materials due to the higher contacting area to the applied surface, making it suitable for use as a LiDAR-detectable inorganic black pigment in autonomous environments.

Topics & Concepts

Materials scienceLidarNanotechnologyBiomimeticsProcess engineeringRemote sensingEngineeringGeologyAdvanced Photocatalysis TechniquesGas Sensing Nanomaterials and SensorsTiO2 Photocatalysis and Solar Cells
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