School of Materials and Energy, Guangzhou Key Laboratory of Low-Dimensional Materials and Energy Storage Devices, Guangdong University of Technology, Guangzhou 510006, PR China.
School of Materials and Energy, Guangzhou Key Laboratory of Low-Dimensional Materials and Energy Storage Devices, Guangdong University of Technology, Guangzhou 510006, PR China.
J Colloid Interface Sci. 2021 May 15;590:134-143. doi: 10.1016/j.jcis.2021.01.041. Epub 2021 Jan 21.
Color changeable photonic prints (CCPPs) show their potential applications in high-level information storage and anti-counterfeiting, but usually suffer from the complex fabrication process and limited color variation. Here, a simple and efficient method is developed to generate CCPPs with multilevel tunable color contrasts by packing the solvent responsive photonic crystals with diverse cross-linking degrees and desired way. The key to the successful fabrication is to create and control over the optical response of each part of the CCPPs through altering the cross-linking degree of PCs and thus the affinity between the CCPPs and solvents. A CCPPs based anti-fake label with the encrypted information functionality which originates from reversible color change between dried state and swelling with the mixture of acetic acid and ethanol is investigated. Compared with conventional CCPPs, the as-prepared CCPPs can reveal multistage information depending on the volume fraction of ethanol. This work provides a new insight for the simple fabrication of CCPPs and will facilitate their applications in the information protection and high-level anti-counterfeiting.
变色光子晶体(CCPPs)在高级信息存储和防伪领域具有潜在的应用,但通常由于复杂的制造工艺和有限的颜色变化而受到限制。本研究提出了一种简单高效的方法,通过将具有不同交联度和所需方式的溶剂响应光子晶体进行封装,生成具有多级可调颜色对比度的 CCPPs。成功制备的关键在于通过改变光子晶体的交联度来改变 CCPPs 与溶剂之间的亲和力,从而创造和控制 CCPPs 各部分的光学响应。本研究制备了一种基于 CCPPs 的防伪标签,其加密信息功能源于在干燥状态和与乙酸和乙醇混合物溶胀状态之间的可逆颜色变化。与传统的 CCPPs 相比,所制备的 CCPPs 可以根据乙醇的体积分数显示多级信息。这项工作为 CCPPs 的简单制造提供了新的思路,将有助于它们在信息保护和高级防伪领域的应用。
