Cadmium Sulfide—Reinforced Double-Shell Microencapsulated Phase Change Materials for Advanced Thermal Energy Storage by Shendao Zhang, Yucao Zhu, Huanzhi Zhang, Fen Xu, Lixian Sun, Yongpeng Xia, Xiangcheng Lin, Hongliang Peng, Lei Ma, Bin Li, Erhu Yan, Pengru Huang

“…Thus, this study may promote the development of microencapsulated PCMs with multifunctionality, offering considerable application prospects in intelligent temperature management for smart textiles and wearable electronic devices in combination with their solar thermal energy conversion and storage performance.…”
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Thermal Regulating Nanofibers Composite from Polyethylene Glycol, Poly(vinyl alcohol) and Titanium Dioxide Nanoparticles by Sadaf Salimian, Majid Montazer, Abu Saeed Rashidi, Neda Soleimani

“…One of the most important methods for storing thermal energy is phase change materials (PCMs), which are used as clean and renewable materials in thermal regulating fibres for smart textiles. Polyethylene glycol (PEG), a solid-liquid phase change material, with proper properties, needs to be encapsulated. …”
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Process Optimization for Manufacturing PAN-Based Conductive Yarn with Carbon Nanomaterials through Wet Spinning by Hyelim Kim, Hyeongmin Moon, Daeyoung Lim, Wonyoung Jeong

“…Therefore, this yarn is expected to be applicable to various smart textiles and wearable devices because of its improved physical properties such as strength and conductivity.…”
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Firefighting: Challenges of Smart PPE by Gilda Santos, Rita Marques, João Ribeiro, Adriana Moreira, Patricia Fernandes, Margarida Silva, André Fonseca, João M. Miranda, João B. L. M. Campos, Soraia F. Neves

“…The protection given by firefighters’ PPE can be further increased with the incorporation of smart textiles in the personal protective equipment, namely, wearable electronics (i.e., integrated sensors to monitor diverse parameters: heart rate, oxygen saturation, carbon dioxide detector, and setting real-time communication with a command post) and advanced materials such as phase change materials (PCMs). …”
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Preparation and Characterization of Body-Temperature-Responsive Thermoset Shape Memory Polyurethane for Medical Applications by Xiaoqing Yang, Zhipeng Han, Chengqi Jia, Tianjiao Wang, Xiaomeng Wang, Fanqi Hu, Hui Zhang, Jun Zhao, Xuesong Zhang

“…As one of the most popular SMPs, shape memory polyurethane (SMPU) has received extensive attention in the fields of biomedicine and smart textiles due to its biocompatibility and adjustable thermal transition temperature. …”
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Sculptured computational objects with smart and active computing materials by Orth, Margaret A. (Margaret Ann), 1964-

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Advanced multimaterial electronic and optoelectronic fibers and textiles by Yan, Wei, Page, Alexis, Nguyen-Dang, Tung, Qu, Yunpeng, Sordo, Federica, Wei, Lei, Sorin, Fabien

“…Multifunctional and connected fiber devices will be at the heart of the development of smart textiles and wearable devices. These devices also offer novel opportunities for surgical probes and tools, robotics and prostheses, communication systems, and portable energy harvesters. …”
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Stretchable, breathable, and stable lead-free perovskite/polymer nanofiber composite for hybrid triboelectric and piezoelectric energy harvesting by Jiang, Feng, Zhou, Xinran, Lv, Jian, Chen, Jian, Chen, Juntong, Kongcharoen, Haruethai, Zhang, Yihui, Lee, Pooi See

“…The LPPS-NFC-based energy harvesters also endure extreme mechanical deformations (washing, folding, and crumpling) without performance degradation, and maintain stable electrical output up to 5 months, demonstrating their promising potential for use as smart textiles and wearable power sources.…”
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A Weavable and Scalable Cotton‐Yarn‐Based Battery Activated by Human Sweat for Textile Electronics by Gang Xiao, Jun Ju, Hao Lu, Xuemei Shi, Xin Wang, Wei Wang, Qingyou Xia, Guangdong Zhou, Wei Sun, Chang Ming Li, Yan Qiao, Zhisong Lu

“…The developed CYSAB can also be integrated with yarn‐based strain sensors to achieve a smart textile for the self‐powered sensing of human motion and breathing. …”
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High performance pressure sensor based on multi-material functional fiber by Yang, Boyu

“…As an important part of flexible wearable electronic devices and smart textiles, flexible pressure sensors, especially flexible micro pressure sensors, finding extensive applications across a diverse range of fields, encompassing areas such as medical diagnostics, health surveillance, detection of human movement, and interactions between humans and computers, etc [1] [8] [9]. …”
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Wearable Technology in Medicine and Health Care / by Tong, Raymond Kai-Yu, author 649602, ScienceDirect (Online service) 7722

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Properties of Resorbable Conduits Based on Poly(L-Lactide) Nanofibers and Chitosan Fibers for Peripheral Nerve Regeneration by Nurjemal A. Tagandurdyyeva, Maxim A. Trube, Igor’ O. Shemyakin, Denis N. Solomitskiy, German V. Medvedev, Elena N. Dresvyanina, Yulia A. Nashchekina, Elena M. Ivan’kova, Irina P. Dobrovol’skaya, Almaz M. Kamalov, Elena G. Sukhorukova, Olga A. Moskalyuk, Vladimir E. Yudin

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Stem cell laden nano and micro collagen/PLGA bimodal fibrous patches for myocardial regeneration by Jung Hee Wee, Ki-Dong Yoo, Sung Bo Sim, Hyun Joo Kim, Han Joon Kim, Kyu Nam Park, Gee-Hee Kim, Mi Hyoung Moon, Su Jung You, Mi Yeon Ha, Dae Hyeok Yang, Heung Jae Chun, Jae Hoon Ko, Chun Ho Kim

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Designer patterned functional fibers via direct imprinting in thermal drawing by Wang, Zhe, Wu, Tingting, Wang, Zhixun, Zhang, Ting, Chen, Mengxiao, Zhang, Jing, Liu, Lin, Qi, Miao, Zhang, Qichong, Yang, Jiao, Liu, Wei, Chen, Haisheng, Luo, Yu, Wei, Lei

“…Furthermore, nanopatterns are fabricated on fibers as plasmonic metasurfaces, and double-sided patterned fibers are produced to construct self-powered wearable touch sensing fabric, revealing the bright future of the DITD technology in multifunctional fiber-based devices, wearable electronics, and smart textiles.…”
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Smart sport equipment: reshaping the sports landscape by Tiago Barbosa

“…The forecast is that smart garments sector will worth about US$34 billion by 2020 (Lamkin, 2016). The smart textiles and smart fabrics market is expected to reach US$9.3 billion by 2024 (Grand View Research, 2015). …”
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1D fiber/yarn supercapacitors for wearable energy storage by Zhai, Shengli

“…They show good potentials as either micro-devices to complement or even replace micro-batteries in miniaturized wearable electronics or being scaled up to macro-devices using textile technology to store large amounts of energy for larger wearable electronics or smart textiles. Thus, in this thesis, the research on 1D F/YSCs for wearable energy storage applications is divided into two directions: long yarn supercapacitors (YSCs) which is capable of being knitted or weaved into energy storage textiles and short fiber micro-supercapacitors (FMSCs). …”
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Highly twisted supercoils for superelastic multi-functional fibres by Wonkyeong Son, Sungwoo Chun, Jae Myeong Lee, Yourack Lee, Jeongmin Park, Dongseok Suh, Duck Weon Lee, Hachul Jung, Young-Jin Kim, Younghoon Kim, Soon Moon Jeong, Sang Kyoo Lim, Changsoon Choi

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Novel ultra-stable and highly luminescent white light-emitting diodes from perovskite quantum dots—Polymer nanofibers through biaxial electrospinning by Dai-Hua Jiang, Yi-Hsuan Tsai, Loganathan Veeramuthu, Fang-Cheng Liang, Lung-Chin Chen, Chun Che Lin, Toshifumi Satoh, Shih-Huang Tung, Chi-Ching Kuo

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Synthesis of Water Resistance and Moisture-Permeable Nanofiber Using Sodium Alginate–Functionalized Waterborne Polyurethane by Wen-Chi Lu, Fu-Sheng Chuang, Manikandan Venkatesan, Chia-Jung Cho, Po-Yun Chen, Yung-Ru Tzeng, Yang-Yen Yu, Syang-Peng Rwei, Chi-Ching Kuo

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Improving the Performance and Stability of Perovskite Light-Emitting Diodes by a Polymeric Nanothick Interlayer-Assisted Grain Control Process by Loganathan Veeramuthu, Fang-Cheng Liang, Zhi-Xuan Zhang, Chia-Jung Cho, Ender Ercan, Chu-Chen Chueh, Wen-Chang Chen, Redouane Borsali, Chi-Ching Kuo

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