Renjie Tan scite author profile

Renjie Tan

2Publications

19Citation Statements Received

415Citation Statements Given

How they've been cited

How they cite others

240

415

Affiliations

City University of Hong Kong

Publications

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Bioinspired Janus All-Natural Electrospinning Membranes with Directional Water Transport as Ecofriendly Dry Facial Masks

Guo

et al. 2022

ACS Sustainable Chem. Eng.

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Facial masks cause huge pollution and resource waste, posing a serious threat to the ecological environment and human health. Inspired by lotus leaves, a bioinspired dry Janus all-natural facial mask (J-AFM) has been developed by a simple green-solvent-based electrospinning method. The dry J-AFM can drive water from the outside directionally to dissolve the inner nanofiber layer of nutrients quickly, while keeping the outside dry and delaying moisture evaporation. Compared with commercial wet facial masks, the dry J-AFM can reduce the total weight by 87 and 100% to avoid plastic pollution by using paper-based packaging. In addition, the waste of water and active nutrients can be reduced by 100%. The dry J-AFM with good antibacterial activity and biocytocompatibility can not only avoid the use of preservatives but also shows an obvious skincare effect. This research can trigger the reform of ecofriendly facial masks and guide the chemical industry toward sustainable and healthy development.

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Fibers/Textiles-Based Flexible Sweat Sensors: A Review

Zhang

Tan

et al. 2023

ACS Materials Lett.

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With the rise of smart textiles, fibers/textiles-based sensors are being applied in various situations, such as healthcare, green energy, and environmental monitoring. The field of health monitoring mainly involves the detection of human secretions (such as sweat, saliva, urine, and excrement). Among them, sweat is extensive and closely related to human health, so it is receiving more and more attention. Various sensors are used for sweat detection, but fiber/textile-based flexible sensors have unique advantages and thus have emerged as an important branch. So, this Review aims to 1) explain the physiological mechanism of sweating and metabolites; 2) introduce the advantages of fibers/textiles as the substrate of sweat sensors; 3) outline different kinds of fibers/textiles-based flexible sweat sensors (enzymatic biosensors, non-enzymatic biosensors, ion-selective sensors, and others) and explain their working principle; 4) summarize the applications of such sensors in different fields (physical condition monitoring, power supply, drug monitoring, mental state monitoring, etc.). Moreover, the opportunities and challenges of flexible fiber/textile-based sweat sensors will also be discussed. This Review will help promote the diversified development of sweat sensors, which is significant for manufacturing advanced sweat detection and diagnostic systems.

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Renjie Tan

Bioinspired Janus All-Natural Electrospinning Membranes with Directional Water Transport as Ecofriendly Dry Facial Masks

Fibers/Textiles-Based Flexible Sweat Sensors: A Review

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