单体
共轭体系
调色板(绘画)
计算机科学
材料科学
纳米技术
有色的
多样性(控制论)
简单(哲学)
色空间
工作(物理)
光电子学
聚合
可扩展性
限制
RGB颜色模型
空格(标点符号)
功率(物理)
显示设备
液晶显示器
化学
聚合物
液晶
数码产品
作者
Divya B. Iyer,D. Eric Shen,Carlos Pinheiro,John R. Reynolds,Anna M. Österholm
标识
DOI:10.1021/acsapm.5c04152
摘要
High Resolution Image Download MS PowerPoint Slide Smart labels integrate sensing functions with digital technologies to enhance traceability, environmental monitoring, and real-time information across diverse sectors such as healthcare, cold-chain logistics, packaging, and transportation. Despite their promise, current electronic indicators─including liquid crystal and electrophoretic displays or light-emitting diodes─are reversible and often power-intensive, limiting their utility for secure, tamper-proof applications. Irreversible Visual Indicators (IVIs) address this gap by providing a permanent, tamper-proof color change triggered by a small voltage, offering rapid and intuitive visual feedback that is especially valuable in high-stress or low-literacy environments. Here, we report a simple and readily adoptable strategy for IVIs based on electropolymerization, where we take advantage of the irreversible conversion of colorless (UV-absorbing) monomers into colored conjugated polymers. This electrochemically triggered polymerization forms persistent films whose optical density can be readily tuned, creating devices that operate at milliwatt-level power, do not require a continuous power supply, and deliver an irreversible optical response that cannot be erased. We demonstrate this concept by electropolymerizing a variety of monomers to generate a broad color palette of IVIs. This work establishes electropolymerization as a powerful and underexplored mechanism for fabricating irreversible indicators, opening unique opportunities for secure, low-cost, and scalable smart labeling technologies.
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