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Recent Progress in Advanced Units of Triboelectric Electronic Skin

ADVANCED MATERIALS TECHNOLOGIES (2023)

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Article Automation & Control Systems

Self-Powered and Interface-Independent Tactile Sensors Based on Bilayer Single-Electrode Triboelectric Nanogenerators for Robotic Electronic Skin

Yucheng Lin et al.

Summary: This study reports a self-powered interface-independent tactile sensor array based on bilayer single-electrode TENGs. By integrating both triboelectronegative and triboelectropositive layers, the sensor can sense applied pressure from any material and has been successfully implemented as electronic skin in a robotic hand for tactile sensing and human-machine interaction.

ADVANCED INTELLIGENT SYSTEMS (2023)

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Article Chemistry, Multidisciplinary

Helical Fiber Strain Sensors Based on Triboelectric Nanogenerators for Self-Powered Human Respiratory Monitoring

Chuan Ning et al.

Summary: Respiration is a vital sign that can be used for early illness diagnosis and physiological monitoring. This study develops a helical fiber strain sensor and a smart wearable real-time respiratory monitoring system, which can measure key breathing parameters and have implications in disease prevention and medical diagnosis.

ACS NANO (2022)

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Article Chemistry, Multidisciplinary

Triboelectric Nanogenerator Tattoos Enabled by Epidermal Electronic Technologies

Tsz Hung Wong et al.

Summary: Next-generation energy harvesters can exist in the form of epidermal electronics, converting mechanical energy from daily body motions into electrical signals. Ultrathin, soft, tattoo-like triboelectric nanogenerators (TL-TENGs) have been introduced to address the issues of poor adhesion and thick geometry commonly faced by reported TENGs. The TL-TENGs demonstrate outstanding mechanical properties and remarkable electrical characteristics, showing great potential in next generation wearable nanogenerators and the internet of things.

ADVANCED FUNCTIONAL MATERIALS (2022)

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Review Chemistry, Multidisciplinary

Recent Progress in Protective Membranes Fabricated via Electrospinning: Advanced Materials, Biomimetic Structures, and Functional Applications

Shuo Shi et al.

Summary: This research reviewed the progress and applications of multifunctional protective membranes fabricated via electrospinning. It identified gaps in current research and proposed solutions for technological development.

ADVANCED MATERIALS (2022)

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Article Astronomy & Astrophysics

Metal Pollution of the Solar White Dwarf by Solar System Small Bodies

Daohai Li et al.

Summary: This study examines the accretion of material onto white dwarfs (WDs) from different small body populations and finds that main belt asteroids dominate in the early stages, while trans-Neptunian objects play a larger role as time goes on. The accretion rate of WDs is consistent with those of other extrasolar WDs.

ASTROPHYSICAL JOURNAL (2022)

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Review Chemistry, Multidisciplinary

Soft Bioelectronics Based on Nanomaterials

Kyoung Won Cho et al.

Summary: Recent advancements in nanostructured materials and unconventional device designs have led to significant improvements in bioelectronics, transitioning from rigid and bulky forms to soft and ultrathin forms. These advancements have enabled high-quality biosignal measurements, real-time feedback treatments, and reduced long-term side effects. Nanomaterials and their composites are extensively utilized for flexible and stretchable electronics, propelling the field of bioelectronics forward.

CHEMICAL REVIEWS (2022)

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Review Chemistry, Multidisciplinary

Electronic Textiles for Wearable Point-of-Care Systems

Guorui Chen et al.

Summary: This article summarizes the research progress and potential applications of e-textiles in wearable healthcare systems, including the working mechanisms and clinical application scenarios of textile sensors, therapeutic devices, and protective medical devices. The article also discusses the connection technologies of e-textiles and offers insights into the challenges and future directions in the field.

CHEMICAL REVIEWS (2022)

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Article Chemistry, Physical

A multi-mode triboelectric nanogenerator for energy harvesting and biomedical monitoring

Yuxiang Wu et al.

Summary: The study introduces a multi-mode stretchable and wearable triboelectric nanogenerator for biomechanical energy harvesting and physiological functions sensing. This device can convert the energy of limb movement into electricity while monitoring arterial pulse signals, joint bending angles, and limb stability in real time, showing great potential for applications in exercise monitoring and rehabilitation therapy.

NANO ENERGY (2022)

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Article Chemistry, Multidisciplinary

Ultra-Sensitive, Deformable, and Transparent Triboelectric Tactile Sensor Based on Micro-Pyramid Patterned Ionic Hydrogel for Interactive Human-Machine Interfaces

Kai Tao et al.

Summary: This study reports a tactile hydrogel sensor based on micro-pyramid-patterned double-network ionic organohydrogels. The sensor is able to detect subtle pressure changes without an external power supply, and exhibits good flexibility, transparency, and sensing performance.

ADVANCED SCIENCE (2022)

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Article Chemistry, Multidisciplinary

Self-Powered Artificial Mechanoreceptor Based on Triboelectrification for a Neuromorphic Tactile System

Joon-Kyu Han et al.

Summary: This article presents a self-powered artificial mechanoreceptor module that mimics biological mechanoreceptors and combines a pressure sensor with a neuron. The system features low energy consumption, high sensitivity to low pressures, and can be applied in robotics, prosthetics, and medical and healthcare devices.

ADVANCED SCIENCE (2022)

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Article Chemistry, Multidisciplinary

Machine-Learning-Assisted Recognition on Bioinspired Soft Sensor Arrays

Yang Luo et al.

Summary: Soft interfaces with self-sensing capabilities are crucial for environment awareness and reaction. This study presents a bioinspired soft sensor array (BOSSA) that integrates pressure and material sensing based on the triboelectric effect. BOSSA demonstrates high accuracy in user identification and object placement/extraction, and its scalable fabrication enables large-area sensor arrays with high resolution and multimodal sensing abilities. This research has potential implications for intelligent monitoring and stimuli response in various applications.

ACS NANO (2022)

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Article Chemistry, Multidisciplinary

A Self-Supporting, Conductor-Exposing, Stretchable, Ultrathin, and Recyclable Kirigami-Structured Liquid Metal Paper for Multifunctional E-Skin

Xing Li et al.

Summary: This article introduces a kind of liquid metal electrode called kirigami-structured LM paper (KLP), which is self-supporting, conductor-exposing, stretchable, ultrathin, and recyclable for multifunctional E-skin. The KLP can acquire high-quality electrophysiological signals and can operate as a self-powered E-skin when integrated with a triboelectric nanogenerator. The authors also developed a smart dialing communication system using the KLP on human skin to call a cellphone.

ACS NANO (2022)

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Article Chemistry, Multidisciplinary

Perception-to-Cognition Tactile Sensing Based on Artificial-Intelligence-Motivated Human Full-Skin Bionic Electronic Skin

Hongsen Niu et al.

Summary: A full-skin bionic electronic skin driven by artificial intelligence (AI) is proposed, which exhibits high sensitivity and fast response/recovery time. It can evolve from tactile perception to intelligent tactile cognition, and can achieve real-time cognition of object material species and locations via one contact. It has broad application prospects.

ADVANCED MATERIALS (2022)

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Article Chemistry, Multidisciplinary

Bimetallic Nanocatalysts Immobilized in Nanoporous Hydrogels for Long-Term Robust Continuous Glucose Monitoring of Smart Contact Lens

Su-Kyoung Kim et al.

Summary: Smart contact lenses for continuous glucose monitoring have the potential to greatly impact clinical practice. The use of bimetallic nanocatalysts immobilized in nanoporous hydrogels enables long-term robust monitoring in diabetic rabbits, resulting in high sensitivity and fast response time.

ADVANCED MATERIALS (2022)

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Review Chemistry, Multidisciplinary

Roles of MXene in Pressure Sensing: Preparation, Composite Structure Design, and Mechanism

Dandan Lei et al.

Summary: Flexible pressure sensors play a crucial role in electronic skin, robotics, and health monitoring, but their practical application is challenging due to limited sensing properties and complex manufacturing processes. MXene, a 2D nanomaterial, offers a breakthrough solution for pressure sensing, particularly Ti3C2Tx, which exhibits excellent mechanical, electrical, and hydrophilic properties. This article summarizes the preparation technologies, antioxidant methods, and properties of MXene, and introduces MXene-based microstructures, including hydrogels, aerogels, foam, fabrics, and composite nanofibers. The mechanisms of MXene pressure sensors, such as piezoresistive, capacitive, piezoelectric, triboelectric, and potentiometric transduction, are discussed. The integration of multiple devices and the future prospects of MXene smart materials for enhancing pressure sensors in e-skin and the Internet of Things are also examined.

ADVANCED MATERIALS (2022)

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Article Multidisciplinary Sciences

Digitally-embroidered liquid metal electronic textiles for wearable wireless systems

Rongzhou Lin et al.

Summary: This study demonstrates the digital embroidery of robust liquid metal-based fibers to create electronic textiles with wireless functionalities for non-intrusive monitoring of human health during daily activities.

NATURE COMMUNICATIONS (2022)

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Article Chemistry, Physical

Ultrathin, transparent, and robust self-healing electronic skins for tactile and non-contact sensing

Ruiyuan Liu et al.

Summary: We have developed an ultrathin, highly transparent and robust self-healing electronic skin by introducing an amorphous microphase-separated elastomer. This e-skin exhibits self-powered tactile and non-contact sensing functions, allowing it to seamlessly attach to human skin and generate electrical signals for energy harvesting and active sensing. It is also extremely durable, maintaining consistent electrical output even after extensive bending tests and operational cycles.

NANO ENERGY (2022)

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Article Chemistry, Physical

Self-powered and photothermal electronic skin patches for accelerating wound healing

Shuo Du et al.

Summary: This paper reports on a TENG-based E-skin patch that can sense motion and promote wound healing by utilizing electrical stimulation and photothermal heating. The patches are biocompatible, stretchable, and shape-adaptable, and can effectively accelerate tissue regeneration and wound healing in approximately 9 days.

NANO ENERGY (2022)

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Review Nanoscience & Nanotechnology

Soft wearable devices for deep-tissue sensing

Muyang Lin et al.

Summary: Current wearable devices are mainly designed to record superficial signals from the skin, but the detection of deep-tissue signals remains a challenge. This Review discusses the engineering of soft wearable devices and focuses on electrical, electromagnetic, thermal, and mechanical sensing approaches, emphasizing penetration depth and temporal and spatial resolutions.

NATURE REVIEWS MATERIALS (2022)

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Article Multidisciplinary Sciences

Intrinsically stretchable electronics with ultrahigh deformability to monitor dynamically moving organs

Shaolei Wang et al.

Summary: Intrinsically stretchable electronics with liquid metal components have been developed, offering high stretchability and durability, and have potential applications in health monitoring, disease diagnosis, and medical therapies.

SCIENCE ADVANCES (2022)

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Article Multidisciplinary Sciences

Biodegradable silicon nanoneedles for ocular drug delivery

Woohyun Park et al.

Summary: This article introduces a unique platform for ocular drug delivery, which integrates silicon nanoneedles with tear-soluble contact lenses. The platform enables painless and long-term sustained delivery of ocular drugs, and has shown effectiveness in treating chronic ocular diseases.

SCIENCE ADVANCES (2022)

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Review Engineering, Electrical & Electronic

Smart textiles for personalized healthcare

Alberto Libanori et al.

Summary: Incorporating sensing and therapeutic capabilities into everyday textiles is crucial for personalized healthcare. The development of smart textiles, driven by miniaturized platform technologies, has led to the creation of compact, autonomous, and interconnected functional textiles. This review examines the different platform technologies, fabrication strategies, clinical scenarios, as well as the commercial and regulatory landscape of smart textiles for personalized healthcare.

NATURE ELECTRONICS (2022)

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Article Engineering, Environmental

Green and recyclable cellulose based TENG for sustainable energy and human-machine interactive system

Mengyan Yang et al.

Summary: This study developed a green and recyclable energy harvesting and human-computer interaction system based on cellulose filter paper (CFP). The CFP-based nanogenerator demonstrates high output voltage and power, making it suitable for powering commercial electronic products and serving as a wearable interface for computer programs.

CHEMICAL ENGINEERING JOURNAL (2022)

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Article Multidisciplinary Sciences

Room-temperature high-precision printing of flexible wireless electronics based on MXene inks

Yuzhou Shao et al.

Summary: This research presents a strategy for direct printing of flexible wireless electronics at room temperature. By regulating the additive-free titanium carbide (Ti3C2Tx) MXene aqueous inks, high-resolution and high-performance functional modules can be fabricated and integrated on various substrates. This work opens up possibilities for high-precision additive manufacturing of printed wireless electronics at room temperature.

NATURE COMMUNICATIONS (2022)

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Article Chemistry, Multidisciplinary

Skin Electronics from Biocompatible In Situ Welding Enabled By Intrinsically Sticky Conductors

Lixue Tang et al.

Summary: This study reports on the development of intrinsically sticky conductors that can achieve direct welding of electronics on human skin, providing potential applications for electronics in the medical field.

ADVANCED SCIENCE (2022)

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Article Engineering, Electrical & Electronic

Nondestructive identification of softness via bioinspired multisensory electronic skins integrated on a robotic hand

Ye Qiu et al.

Summary: This study presents a scatheless measuring methodology using multisensory electronic skins to quantify the elastic coefficient of soft materials. By classifying softness based on piezoelectric signals and a machine learning algorithm, and then conducting quantitative measurements via strain sensing feedback, satisfactory interaction with fragile objects is achieved.

NPJ FLEXIBLE ELECTRONICS (2022)

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Article Materials Science, Multidisciplinary

Highly Transparent, Stretchable, and Self-Healable Ionogel for Multifunctional Sensors, Triboelectric Nanogenerator, and Wearable Fibrous Electronics

Lijie Sun et al.

Summary: Ionogels with high transparency, stretchability, and self-healing capability have shown great potential for wearable electronics. By utilizing double physical cross-linking involving hydrogen bonding and dipole-dipole interaction, these ionogels exhibit excellent self-healing properties. They have been utilized to fabricate multifunctional sensors for strain and temperature, as well as antifreezing ionogel fibers with good sensing performance. Furthermore, an antifreezing ionogel-based triboelectric nanogenerator (ITENG) has been developed for efficient energy harvesting, showing promising results in terms of current, voltage, and power density. This research offers a new strategy for designing ionogels to advance wearable electronics.

ADVANCED FIBER MATERIALS (2022)

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Article Chemistry, Multidisciplinary

Stretchable, Washable, and Ultrathin Triboelectric Nanogenerators as Skin-Like Highly Sensitive Self-Powered Haptic Sensors

Yang Jiang et al.

Summary: This study presents a stretchable, washable, and ultrathin skin-inspired triboelectric nanogenerator (SI-TENG) for harvesting human motion energy and acting as a highly sensitive self-powered haptic sensor. With optimized design, the generator achieves efficient energy harvesting and self-powered sensing, making it applicable for human-machine interfaces and security systems.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Nanoscience & Nanotechnology

Integrated All-Fiber Electronic Skin toward Self-Powered Sensing Sports Systems

Yapeng Shi et al.

Summary: This study presents a novel wearable electronic skin based on a triboelectric nanogenerator, which is flexible, breathable, and antibacterial, demonstrating excellent performance in volleyball reception statistics and analytics, and self-powered sensing capabilities.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Chemistry, Multidisciplinary

Machine-Learning-Aided Self-Powered Assistive Physical Therapy Devices

Xiao Xiao et al.

Summary: The increasing elderly and disabled population pose challenges to the healthcare system. Assistive physical therapy devices, utilizing self-powered sensors and optimized machine-learning algorithms, play a crucial role in promoting well-being and independence. Technological advancements in this field offer innovative solutions to meet global needs.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

Multifunctional Coaxial Energy Fiber toward Energy Harvesting, Storage, and Utilization

Jing Han et al.

Summary: A multifunctional coaxial energy fiber has been developed for energy harvesting, storage, and utilization, consisting of a fiber-shaped triboelectric nanogenerator, supercapacitor, and pressure sensor. Each energy component has been systematically investigated for their electrical and mechanical performances, showing stable behavior under mechanical deformation.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

Degradable and Fully Recyclable Dynamic Thermoset Elastomer for 3D-Printed Wearable Electronics

Yifan Guo et al.

Summary: In this study, a conductive recyclable composite (PFBC) was designed with excellent properties and environmental tolerance, achieved through reversible dissociation of Diels-Alder networks for convenient processing and recycling. PFBC-based wearable electronics were successfully produced, offering a new pathway to reduce e-waste.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Engineering, Environmental

Wearable piezoresistive pressure sensors based on 3D graphene

Minghui Cao et al.

Summary: Wearable piezoresistive sensors based on three-dimensional graphene offer advantages such as simple preparation, low power consumption, and convenient signal acquisition, showing great potential in applications like human motion detection and health monitoring.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Chemistry, Physical

Permeable superelastic liquid-metal fibre mat enables biocompatible and monolithic stretchable electronics

Zhijun Ma et al.

Summary: A new type of stretchable conductor, liquid-metal fiber mat, has been developed with high permeability, stretchability, conductivity, and electrical stability, as well as good biocompatibility and adaptiveness to omnidirectional stretching. The liquid metal self-organizes into mesh-like and buckled structures on an electrospun elastomeric fiber mat, allowing for the realization of highly permeable and multifunctional monolithic stretchable electronics.

NATURE MATERIALS (2021)

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Review Chemistry, Physical

Wood-cellulose-fiber-based functional materials for triboelectric nanogenerators

Chenyuan Zhang et al.

Summary: The research progress in the application of wood cellulose fiber in the field of TENG is significant, and it can be used for green and large-scale self-powered energy equipment. The unique structural features of wood cellulose fiber and related derivative materials are the focus of research.

NANO ENERGY (2021)

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Article Chemistry, Physical

Trampoline inspired stretchable triboelectric nanogenerators as tactile sensors for epidermal electronics

Jiahui He et al.

Summary: Recent advances in flexible electronics have made significant progress in the development of wearable devices, such as electronic skin (E-skin). However, the issue of power supply remains a challenge for E-skin in terms of size, weight, and cost limitations. In this study, a thin, soft, stretchable self-powered tactile sensor based on the triboelectric effect is developed by combining trampoline-inspired mechanics design and processing techniques in epidermal electronics. With the assistance of microstructure modification using sandpapers, the TENG sensor shows improved electrical performance and high sensitivity for a broad range of pressure, making it suitable for integration with a glove for human-machine interfaces and pressure mapping applications. Overall, the developed sensor offers great potential for the next generation of self-powered E-skin.

NANO ENERGY (2021)

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Article Chemistry, Physical

Artificial tactile peripheral nervous system supported by self-powered transducers

Libo Chen et al.

Summary: The study introduced a supersensitive artificial slowly adapting tactile afferent nervous system based on the triboelectric nanogenerator technology, mimicking the structural features of the natural system and exhibiting similar adapting behaviors to biological nervous systems. This artificial nervous system is self-powered in the transduction process and has the potential for neuromorphic signal processing.

NANO ENERGY (2021)

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Article Nanoscience & Nanotechnology

Ultrathin Stretchable Triboelectric Nanogenerators Improved by Postcharging Electrode Material

Weiyi Zhang et al.

Summary: The study introduces an ultrathin stretchable and triboelectric nanogenerator (CT-TENG) improved by chargeable carbon black (CB)/thermoplastic polyurethane (TPU) composite material for mechanical energy harvesting and physiological signal sensing. The improved CT-TENG shows good stretchability, ultrathin thickness, and lightweight, with enhanced output performance through corona charging process and self-powered sensing capability. The CT-TENG holds great potential in advancing electronic skins, wearable systems of self-powered sensors, human-machine interactions, soft robotics, and artificial intelligence applications.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Nanoscience & Nanotechnology

Antiliquid-Interfering, Antibacteria, and Adhesive Wearable Strain Sensor Based on Superhydrophobic and Conductive Composite Hydrogel

Zichao Wang et al.

Summary: The study demonstrates a flexible wearable sensor with a double-layer structure, consisting of an outer layer of silicone elastomer/silica microparticle composite film and an inner layer of P(AAm-co-HEMA)-MXene-AgNPs hydrogel. The sensor offers superhydrophobic function and excellent antibacterial activity, with strong adhesion to various materials.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Chemistry, Multidisciplinary

Self-Healing and Elastic Triboelectric Nanogenerators for Muscle Motion Monitoring and Photothermal Treatment

Dan Yang et al.

Summary: The study developed a single-electrode multifunctional TENG with fast self-healing, human health monitoring, and photothermal properties. The device can recover its original state within 10 minutes after mechanical damage, and can be attached to human joints for monitoring personal health information while also providing photothermal therapy to assist in joint motion recovery.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

Stretchable, Stable, and Degradable Silk Fibroin Enabled by Mesoscopic Doping for Finger Motion Triggered Color/Transmittance Adjustment

Zijie Xu et al.

Summary: Silk fibroin, a biocompatible material, has been introduced into a flexible, stretchable, and bioabsorbable triboelectric nanogenerator (TENG) for applications in intelligent wireless communication, providing a new approach for collecting biomechanical energy.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

Soft Human-Machine Interface with Triboelectric Patterns and Archimedes Spiral Electrodes for Enhanced Motion Detection

Hang Guo et al.

Summary: The rapid development in electronic skins has led to the creation of novel multifunctional human-machine interaction interfaces, particularly in motion interaction sensors. A self-powered electronic skin based on the Archimedes spiral structure design has been introduced, which can detect multi-directional movement without the need for external energy supply. The use of triboelectric materials as the basis for signal discrimination increases reliability and solves the issue of energy supply during device operation.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

All-Nanofiber Self-Powered Skin-Interfaced Real-Time Respiratory Monitoring System for Obstructive Sleep Apnea-Hypopnea Syndrome Diagnosing

Xiao Peng et al.

Summary: This study presents a real-time respiratory monitoring and obstructive sleep apnea-hypopnea syndrome (OSAHS) diagnosis system using a breathable, highly sensitive, and self-powered electronic skin (e-skin) based on a triboelectric nanogenerator (TENG). The e-skin has high power density, pressure sensitivity, stability, and air permeability, enabling energy autonomy and accurate real-time respiration monitoring simultaneously.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

A Flexible Multifunctional Triboelectric Nanogenerator Based on MXene/PVA Hydrogel

Xiongxin Luo et al.

Summary: The MXene/polyvinyl alcohol (PVA) hydrogel TENG (MH-TENG) showcases simple fabrication, high output performance, and versatile applications. MXene nanosheets doping enhances the crosslinking of the PVA hydrogel, improving its stretchability.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Multidisciplinary Sciences

Robust, self-adhesive, reinforced polymeric nanofilms enabling gas-permeable dry electrodes for long-term application

Yan Wang et al.

Summary: The study introduces a robust, self-adhesive, gas-permeable nanofilm that can self-adhere to human skin for a week. This nanofilm is capable of supporting liquids 79,000 times heavier than its own weight, with a high tensile stress.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

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Article Multidisciplinary Sciences

Reversible polymer-gel transition for ultra-stretchable chip-integrated circuits through self-soldering and self-coating and self-healing

Pedro Alhais Lopes et al.

Summary: The Pol-Gel technology enables low-cost, scalable, and rapid fabrication of hybrid microchip-integrated ultra-stretchable circuits through self-soldering, self-encapsulation, and self-healing, achieving maximum strain tolerance 5 times higher than previous works. This approach opens up new possibilities for applications of printed stretchable devices and soft circuits.

NATURE COMMUNICATIONS (2021)

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Review Multidisciplinary Sciences

Nanophotonic biosensors harnessing van der Waals materials

Sang-Hyun Oh et al.

Summary: This article introduces the unique advantages of low-dimensional van der Waals (vdW) materials in nanophotonic biosensing, including the dimensional reduction effect, enhanced electrostatic tunability of polariton modes due to reduced dielectric screening in vdW materials, and the implications for new sensing functionalities. It discusses basic sensing principles, technological challenges, and the progress in implementing vdW materials for advanced sensing applications.

NATURE COMMUNICATIONS (2021)

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Review Chemistry, Physical

Materials Beyond Conventional Triboelectric Series for Fabrication and Applications of Triboelectric Nanogenerators

Gaurav Khandelwal et al.

Summary: Triboelectric nanogenerators (TENGs) have become a popular choice as energy harvesters worldwide, known for their lightweight, low cost, high output, and wide range of applications. The performance of TENGs relies heavily on materials, with significant progress being made in exploring novel materials to enhance output. Future prospects and challenges in material development for TENGs are discussed in this review.

ADVANCED ENERGY MATERIALS (2021)

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Review Engineering, Biomedical

Triboelectric Nanogenerators for Self-Powered Wound Healing

Xiao Xiao et al.

Summary: Triboelectric nanogenerators (TENGs) have emerged as a promising technology for wound healing, offering a wide range of benefits such as choice of biocompatible materials, simple fabrication, high output power, and low cost. While challenges remain, TENGs are proving to be a valuable platform for human-centric therapeutics in the era of Internet of Things.

ADVANCED HEALTHCARE MATERIALS (2021)

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Article Chemistry, Physical

Fingerprint-inspired electronic skin based on triboelectric nanogenerator for fine texture recognition

Xuan Zhao et al.

Summary: The tactile perception of fine textures in humans is mediated by fingertip skin, which is crucial for obtaining environmental information and manipulating objects precisely. Electronic skins based on triboelectric nanogenerator (TENG) have shown impressive applications in fine texture recognition by accurately mapping surface textures to electrical signals and revealing physical information. The fingerprint-inspired electronic skin (FE-skin) developed in this study can effectively detect and identify different textures by mimicking human fingerprints' morphology, achieving high accuracy rates in texture recognition through processing electrical signals with artificial neural networks. This technology demonstrates TENG's potential superiority in bionic tactile perception and has broad application prospects in humanoid robots, intelligent prostheses, and precise human-machine interaction.

NANO ENERGY (2021)

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Article Chemistry, Multidisciplinary

Super Tough and Spontaneous Water-Assisted Autonomous Self-Healing Elastomer for Underwater Wearable Electronics

Cyuan-Lun He et al.

Summary: This paper introduces a novel water-assisted room-temperature self-healing mechanism for soft electronics, which demonstrates rapid self-healing and high stretchability. The materials designed based on this mechanism show favorable mechanical performance and stability, making them suitable for use in electronic skin devices.

ADVANCED SCIENCE (2021)

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Article Engineering, Electrical & Electronic

Fully solution processed liquid metal features as highly conductive and ultrastretchable conductors

Hangyu Zhu et al.

Summary: This study presents a fully solution-based process for generating patterned features of liquid metal conductor with high resolution and excellent performance. The technique demonstrates practical suitability for a variety of applications in fields such as epidermal sensors, wearable heaters, advanced prosthetics, and soft robotics.

NPJ FLEXIBLE ELECTRONICS (2021)

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Review Chemistry, Multidisciplinary

Fibre electronics: towards scaled-up manufacturing of integrated e-textile systems

Shayan Seyedin et al.

Summary: The rapid advancements in electronic textiles have revolutionized wearable devices, providing lightweight and flexible options with promising potential in energy harvesting, storage, and sensing applications. Researchers are working to address current limitations and are optimistic about the future development in this field.

NANOSCALE (2021)

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Article Chemistry, Multidisciplinary

Wearable triboelectric nanogenerators for heart rate monitoring

Sophia Shen et al.

Summary: Cardiovascular diseases are currently the leading cause of death globally, making heart rate monitoring important. Triboelectric nanogenerators have emerged as a cost-effective technology for continuous heart rate monitoring in a wearable manner.

CHEMICAL COMMUNICATIONS (2021)

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Review Chemistry, Physical

Textile triboelectric nanogenerators for self-powered biomonitoring

John Lama et al.

Summary: Textile-based TENGs (tTENGs) integrate biomonitoring technology offering a cost-effective, breathable, and comfortable option for daily wear, widely applied in areas such as cardiovascular, respiratory, motion, and sleep monitoring, with a significant impact on personalized healthcare.

JOURNAL OF MATERIALS CHEMISTRY A (2021)

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Review Chemistry, Multidisciplinary

Well-rounded devices: the fabrication of electronics on curved surfaces - a review

Steven I. Rich et al.

Summary: With the advancement of the Internet of Things and wearable computing, electronics have become increasingly essential in daily life. Traditional electronics, with their rigid angular nature, have faced challenges in integrating with curved surfaces. In recent years, efforts have been made to fabricate electronics on curved surfaces, showing the potential of curved electronics.

MATERIALS HORIZONS (2021)

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Review Chemistry, Multidisciplinary

Advanced Soft Materials, Sensor Integrations, and Applications of Wearable Flexible Hybrid Electronics in Healthcare, Energy, and Environment

Hyo-Ryoung Lim et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Bioinspired Triboelectric Nanogenerators as Self-Powered Electronic Skin for Robotic Tactile Sensing

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