Contents
2024
Volume: 6 Issue 3
20 Article(s)

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Research Articles
3D Coaxially Printing rGO Aerogel-Based Biocompatible Fiber for Peripheral Nerve Regeneration
Jingxiang Zhang, Zhongyang Liu, Jing Wang, Yang Zhang, Jiaqi Dong, Jianpeng Gao, Licheng Zhang, Jizeng Wang, Peifu Tang, and Qiangqiang Zhang
In this study, we developed a hollow aerogel fiber out of reduced graphene oxide (rGO), with a hierarchically ordered microstructure through a three-dimensional coaxial printing methodology, that enabled a physicochemically cooperative construction process at multiscale. The rGO hollow aerogel fiber was modified by dep
Advanced Fiber Materials
  • Publication Date: Jan. 29, 2024
  • Vol. 6, Issue 3, 00352 (2024)
Intense-Light Sensing Yarns Achieved by Interfused Inorganic Halide Perovskite Nanofiber Network
Siying Wu, Zeyu Wan, Saeid Kamal, Fatemeh Zabihi, Menglei Hu, Addie Bahi, Frank Ko, and Peyman Servati
Fully inorganic metal halide perovskites (MHPs) demonstrate enhanced stability over their organic–inorganic counterparts, however, their integrations into flexible or textile-based substrates remain a significant challenge, due to their inherent rigidity and the necessity of high-temperature annealing. Herein, we propo
Advanced Fiber Materials
  • Publication Date: Mar. 27, 2024
  • Vol. 6, Issue 3, 00366 (2024)
A Heterogeneous Quasi-solid-State Hybrid Electrolyte Constructed from Electrospun Nanofibers Enables Robust Electrode/Electrolyte Interfaces for Stable Lithium Metal Batteries
Manxi Wang, Shiwen Lv, Manxian Li, Xuan Li, Chuanping Li, Zulin Li, Xiaochuan Chen, Junxiong Wu, Xiaoyan Li, Yuming Chen, and Qinghua Chen
Quasi-solid-state electrolytes that possess high ionic conductivity, excellent interface stability, and low interfacial resistance, are required for practical solid-state batteries. Herein, a heterogeneous quasi-solid-state hybrid electrolyte (QSHE) with a robust lithium-ion transport layer composed of Li1+xAlxTi2-x(PO
Advanced Fiber Materials
  • Publication Date: Feb. 27, 2024
  • Vol. 6, Issue 3, 00371 (2024)
Phase Inversion-Based Microfluidic-Fiber-Spinning Assembly of Self-Supported rGO/PEDOT FiberFabrics Towards Wearable Supercapacitors
Liangliang Zhou, Yujiao Zhang, Hui Qiu, Jijun Xiao, Su Chen, and Yong Liu
The demand for wearable electronics is still growing, and the rapid development of new electrochemical materials and manufacturing processes allows for innovative approaches to power these devices. Here, three-dimensional (3D) self-supported reduced graphene oxide/poly(3,4-ethylenedioxythiophene) (rGO/PEDOT) hybrid fib
Advanced Fiber Materials
  • Publication Date: Mar. 15, 2024
  • Vol. 6, Issue 3, 00373 (2024)
Mesoporous Nanofibers from Extended Electrospinning Technique
Pengpeng Qiu, Richeng Jin, Younggyu Son, Anqi Ju, Wan Jiang, Lianjun Wang, and Wei Luo
One-dimensional (1D) mesoporous nanofibers (NFs) have recently attracted tremendous interest in different fields, in virtue of their mesoporous structure and 1D geometry. However, conventional electrospinning, as a versatile approach for producing 1D nanostructures, can only fabricate solid NFs without pores or with a
Advanced Fiber Materials
  • Publication Date: Mar. 22, 2024
  • Vol. 6, Issue 3, 00379 (2024)
Efficient and Homogenous Precipitation of Sulfur Within a 3D Electrospun Heterocatalytic Rutile/Anatase TiO2-x Framework in Lithium–Sulfur Batteries
Ping Feng, Kang Dong, Yaolin Xu, Xia Zhang, Haojun Jia, Henrik Prell, Michael Tovar, Ingo Manke, Fuyao Liu, Hengxue Xiang, Meifang Zhu, and Yan Lu
Lithium–sulfur (Li–S) batteries can potentially outperform state-of-the-art lithium-ion batteries, but their further development is hindered by challenges, such as poor electrical conductivity of sulfur and lithium sulfide, shuttle phenomena of lithium polysulfides, and uneven distribution of solid reaction products. H
Advanced Fiber Materials
  • Publication Date: Mar. 18, 2024
  • Vol. 6, Issue 3, 00380 (2024)
Waterproof Iontronic Yarn for Highly Sensitive Biomechanical Strain Monitoring in Wearable Electronics
Zhiping Feng, Qiang He, Xue Wang, Jing Qiu, Hongbing Wu, Yinggang Lin, Yufen Wu, and Jin Yang
Flexible yarn sensors designed for integration into textiles have the potential to revolutionize wearable technology by continuously monitoring biomechanical strain. However, existing yarn-shaped sensors rely on capacitance as a strain-dependent electrical signal and often face limitations in achieving high sensitivity
Advanced Fiber Materials
  • Publication Date: Apr. 09, 2024
  • Vol. 6, Issue 3, 00381 (2024)
In Situ Graft-on Fibrous Composites and Nanostructure Interlocking Facilitate Highly Stable Wearable Sensors for SIDS Prevention
Kaifeng Chen, Weitao Wang, Zhihao Ye, Yabo Dong, Linpu Wan, Zijian Zhang, Cheng Lin, Liwu Liu, Jinsong Leng, Xinyu Wang, Wei Yang, Shaoxing Qu, and Zongrong Wang
High-performance and reliable wearable devices for healthcare are in high demand for the health monitoring of infants, ensuring that life-threatening events can be addressed promptly. Herein, the continuous monitoring of infant respiration for preventing sudden infant death syndrome (SIDS) is proposed using high-perfor
Advanced Fiber Materials
  • Publication Date: Mar. 20, 2024
  • Vol. 6, Issue 3, 00382 (2024)
Pre-oxidized PAN Nanofibrous Membrane to Efficiently and Continuously Separate Large-Scale Viscous Oil-in-Water Emulsions Under Harsh Conditions with Ultra-Long-Term Oil-Fouling Recovery
Hongwei Su, Hua Hu, Zhenyu Li, Guilong Yan, Li Wang, Dong Xiang, Chunxia Zhao, Yuanpeng Wu, Jingyu Chen, and Ce Wang
High-performance multifunctional filtration membranes are highly required in treating practically complex oily wastewater systems, but still a challenge unsolved. Herein, we propose a facile route to address these challenges simultaneously by simply constructing electrospun pre-oxidized polyacrylonitrile nanofibrous me
Advanced Fiber Materials
  • Publication Date: Mar. 26, 2024
  • Vol. 6, Issue 3, 00383 (2024)
An Ultrahigh-Strength Braided Smart Yarn for Wearable Individual Sensing and Protection
Kai Wang, Yunchu Shen, Tairan Wang, Zixin Li, Baoping Zheng, Zhijia Dong, Fanggang Ning, Gaoming Jiang, Gang Zhao, Chaoyu Chen, and Pibo Ma
The insufficient comprehensive mechanical properties and inadequate flexibility of wearable sensors limit their body-protection capability, durability, and comfort. There are challenges in using flexible wearable devices for high-performance practical applications, especially on large scales. Here, an ultrahigh-strengt
Advanced Fiber Materials
  • Publication Date: Mar. 14, 2024
  • Vol. 6, Issue 3, 00385 (2024)
Advanced Design of Fibrous Flexible Actuators for Smart Wearable Applications
Cuiqin Fang, Bingang Xu, Meiqi Li, Jing Han, Yujue Yang, and Xinlong Liu
Smart wearables equipped with integrated flexible actuators possess the ability to autonomously respond and adapt to changes in the environment. Fibrous textiles have been recognised as promising platforms for integrating flexible actuators and wearables owing to their superior body compliance, lightweight nature, and
Advanced Fiber Materials
  • Publication Date: Mar. 22, 2024
  • Vol. 6, Issue 3, 00386 (2024)
Introducing Rich Heterojunction Surfaces to Enhance the High-Frequency Electromagnetic Attenuation Response of Flexible Fiber-Based Wearable Absorbers
He Han, Zhichao Lou, Qiuyi Wang, Lei Xu, and Yanjun Li
With the rapid development of 5G communication and artificial intelligence (AI) technology, electromagnetic radiation pollution is emerging as a serious issue. Achieving both uniform dispersion and controllable loading of absorbers and obtaining functional wearable absorbers with high electromagnetic response are still
Advanced Fiber Materials
  • Publication Date: Mar. 07, 2024
  • Vol. 6, Issue 3, 00387 (2024)
High-Performance Cellulose Nanofibers/Carbon Nanotubes Composite for Constructing Multifunctional Sensors and Wearable Electronics
Yali Liu, Sufeng Zhang, Lei Li, and Nan Li
The green preparation of highly dispersed carbon nanotube (CNT) conductive inks remains a critical challenge in the field of flexible electronics. Herein, a waterborne CNT dispersion approach mediated by carboxylated cellulose nanofibers (C-CNFs) was proposed. CNFs, special biomass materials with excellent nanostructur
Advanced Fiber Materials
  • Publication Date: Mar. 14, 2024
  • Vol. 6, Issue 3, 00388 (2024)
Aid of Smart Nursing to Pressure Injury Prevention and Rehabilitation of Textile Cushions
Shijin Zhang, Xia Yin, Pengxiang Yan, Yuanyuan Liu, Xiangjun Qi, Xuming Zhang, Tao Huang, Lianlong Xu, Xianjing Du, Na Na, Yongjun Mao, Song Hu, Hong Liu, and Mingwei Tian
Real-time monitoring of pressure and temperature in wheelchair patients is an effective method for preventing and rehabilitating pressure injuries. Nevertheless, few rehabilitation devices capable of monitoring temperature and pressure have been reported. Herein, we propose a fully textile-based scalable and designable
Advanced Fiber Materials
  • Publication Date: Mar. 21, 2024
  • Vol. 6, Issue 3, 00390 (2024)
Solid-State Transformations of Active Materials in the Pores of Sulfurized-Polyacrylonitrile Fiber Membranes via Nucleophilic Reactions for High-Loading and Free-Standing Lithium–Sulfur Battery Cathodes
Hao Liu, Yun Zhang, Yongbing Li, Na Han, Haihui Liu, and Xingxiang Zhang
Sulfurized polyacrylonitrile (SPAN) has emerged as an excellent cathode material for lithium–sulfur batteries (LiSBs), and it addresses the shuttle effect through a solid‒solid reaction. However, the actual sulfur loadings in SPAN often remain below 40 wt%. Due to the susceptibility of polysulfides-to-nucleophilic reac
Advanced Fiber Materials
  • Publication Date: Mar. 14, 2024
  • Vol. 6, Issue 3, 00391 (2024)
Versatile and Comfortable Janus Fabrics for Switchable Personal Thermal Management and Electromagnetic Interference Shielding
Mingxin Feng, Shuangjiang Feng, Tianrui Yu, Shengyin Zhu, Haoran Cai, Xu He, Yanmei Liu, Man He, Xiaohai Bu, Jun Huang, and Yuming Zhou
Existing personal thermal regulating fabrics fall short of meeting the demands for sustainable and protective outdoor temperature management. Here, a versatile and comfortable Janus fabric has been developed by embedding boron nitride nanosheets within a porous polyurethane matrix (BNNS@TPU) and introducing Ti3C2Tx MXe
Advanced Fiber Materials
  • Publication Date: Apr. 09, 2024
  • Vol. 6, Issue 3, 00393 (2024)
Nanofiber Scaffold-Based Tissue Engineering for the Treatment of Acute Liver Failure
Xiaojiao Liu, Xiang Yao, Qinjun OuYang, Ana L. Oliveira, Li Yan, and Yaopeng Zhang
Acute liver failure (ALF) has a mortality rate of more than 40%. Currently, orthotopic liver transplantation is the sole clinical treatment for ALF, but its wide usage is severely limited due to donor shortage and immunological rejection. An emerging and promising technology for ALF treatment is liver tissue engineerin
Advanced Fiber Materials
  • Publication Date: Apr. 02, 2024
  • Vol. 6, Issue 3, 00395 (2024)
Bio-imitative Synergistic Color-Changing and Shape-Morphing Elastic Fibers with a Liquid Metal Core
Seonwoo Mun, Sangmin Lee, Kwak Jin Bae, Yejin Bae, Hye-Min Lee, Byung-Joo Kim, Jaesang Yu, and Sungjune Park
The systematic integration of color-changing and shape-morphing abilities into entirely soft devices is a compelling strategy for creating adaptive camouflage, electronic skin, and wearable healthcare devices. In this study, we developed soft actuators capable of color change and programmable shape morphing using elast
Advanced Fiber Materials
  • Publication Date: Apr. 03, 2024
  • Vol. 6, Issue 3, 00399 (2024)
Fast Ion Conductor Nanofibers and Aramid Nanofibers with Hydrogen Bonds Synergistically Enhanced Composite Solid Electrolytes
Hengying Xiang, Lu Gao, Dongjie Shi, Long Jiao, Bowen Cheng, Nanping Deng, Geng Li, and Weimin Kang
The low ionic conductivities, poor high-voltage stabilities, and lithium dendrite formation of polymer solid electrolytes preclude their use in all-solid-state lithium metal batteries (ASSLMBs). This work provides a simple and scalable technique for constructing fast ion conductor nanofibers (FICNFs) and poly-m-phenyle
Advanced Fiber Materials
  • Publication Date: Apr. 02, 2024
  • Vol. 6, Issue 3, 00402 (2024)
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