Preparation of cool composite pigment by the layer-by-layer assembling of phthalocyanine green on the surface of rutile TiO2

Pigment & Resin Technology Pub Date : 2023-05-29 DOI:10.1108/prt-03-2023-0027

Lingyun Cao, Shuaibin Ren, Zhenghao Zhou, X. Fei, Changliang Huang

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Abstract

Purpose This study aims to fabricate a cool phthalocyanine green/TiO2 composite pigment (PGT) with high near-infrared (NIR) reflectance, good color performance and good heat-shielding performance under sunlight and infrared irradiation. Design/methodology/approach With the help of anionic and cationic polyelectrolytes, the PGT composite pigment was prepared using a layer-by-layer assembly method under wet ball milling. Based on the light reflectance properties and color performance tested by ultraviolet-visible-NIR spectrophotometer and colorimeter, the preparation conditions were optimized and the properties of PGT pigment with different assembly layers (PGT-1, PGT-3, PGT-5 and PGT-7) were compared. In addition, their heat-shielding performance was evaluated and compared by temperature rise value for their coating under sunlight and infrared irradiation. Findings The PGT pigment had a core/shell structure, and the PG thickness increased with the self-assembly layers, which made the PGT-3 and PGT-7 pigment show higher color purity and saturation than PGT-1 pigment. In addition, the PGT-3 and PGT-7 pigment showed 11%–16% lower light reflectance in the visible region. However, their light reflectance in the NIR region was similar. Under infrared irradiation the PGT-5 and PGT-7 pigment coating showed 1.1°C–3.4°C and 1.3°C–4.7°C lower temperature rise value than PGT-1 pigment coating and physical mixture pigment coating, respectively. And under sunlight the PGT-3 pigment coating showed 1.5–2.6°C lower temperature rise value than the physical mixture pigment coating. Originality/value The layer-by-layer assembling makes the core/shell PGT composite pigment possess low visible light reflectance, high NIR reflectance and good heat-shielding performance.

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在金红石型TiO2表面逐层组装酞菁绿制备冷复合颜料

目的制备一种近红外(NIR)反射率高、显色性能好、在阳光和红外照射下具有良好热屏蔽性能的冷色调酞菁绿/TiO2复合颜料(PGT)。在阴离子和阳离子聚电解质的帮助下，采用湿球磨逐层组装的方法制备了PGT复合颜料。通过紫外-可见-近红外分光光度计和比色仪测试了PGT颜料的反射率和显色性能，优化了制备条件，比较了PGT颜料不同组装层(PGT-1、PGT-3、PGT-5和PGT-7)的性能。此外，通过涂层在日光和红外照射下的温升值对其热屏蔽性能进行了评价和比较。发现PGT颜料具有核/壳结构，随着自组装层的增加，PG厚度增加，使得PGT-3和PGT-7颜料的颜色纯度和饱和度高于PGT-1颜料。此外，PGT-3和PGT-7色素在可见光区域的反射率降低了11%-16%。然而，它们在近红外区的反射率是相似的。红外辐照下，PGT-5和PGT-7颜料涂层的温升值分别比PGT-1颜料涂层和物理混合颜料涂层低1.1℃- 3.4℃和1.3℃- 4.7℃。光照下，PGT-3颜料涂层的温升值比物理混合颜料涂层低1.5 ~ 2.6℃。通过逐层组装，使核壳PGT复合颜料具有低可见光反射率、高近红外反射率和良好的热屏蔽性能。

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Pigment & Resin Technology

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