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Personal Microenvironment Management by Smart Textiles with Negative Oxygen Ions Releasing and Radiative Cooling Performance

Yipeng Chen, Zhichen Du, Jiayi Zhang, Pei Zeng, Huageng Liang, Yi-Xiang Wang, Qingfeng Sun, Guomo Zhou, Huiqiao Li

2023ACS Nano22 citationsDOI

Abstract

In recent years, significant strides have been made in the development of smart clothing, which combines traditional apparel with advanced technology. As our climate and environment undergo continuous changes, it has become critically important to invent and refine sophisticated textiles that enhance thermal comfort and human health. In this study, we present a “wearable forest-like textile”. This textile is based on helical lignocellulose–tourmaline composite fibers, boasting mechanical strength that outperforms that of cellulose-based and natural macrofibers. This wearable microenvironment does more than generate approximately 18625 ions/cm 3 of negative oxygen ions; it also effectively purifies particulate matter. Furthermore, our experiments demonstrate that the negative oxygen ion environment can slow fruit decay by neutralizing free radicals, suggesting promising implications for aging retardation. In addition, this wearable microenvironment reflects solar irradiation and selectively transmits human body thermal radiation, enabling effective radiative cooling of approximately 8.2 °C compared with conventional textiles. This sustainable and efficient wearable microenvironment provides a compelling textile choice that can enhance personal heat management and human health.

Topics & Concepts

TextileThermal management of electronic devices and systemsHuman healthClothingMaterials scienceIonWearable technologyNanotechnologyWearable computerChemistryComputer scienceComposite materialMechanical engineeringEngineeringOrganic chemistryEmbedded systemArchaeologyEnvironmental healthHistoryMedicineThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationThermoregulation and physiological responses
Personal Microenvironment Management by Smart Textiles with Negative Oxygen Ions Releasing and Radiative Cooling Performance | Litcius