☆ 4.7 Review

A Review on PVDF Nanofibers in Textiles for Flexible Piezoelectric Sensors

ACS APPLIED NANO MATERIALS (2023)

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Review Materials Science, Multidisciplinary

A Review on Wearable Electrospun Polymeric Piezoelectric Sensors and Energy Harvesters

Sheyda Mirjalali et al.

Summary: Wearable sensors and energy harvesters have great potential in personalized healthcare, robotics, and human-machine interfaces. Piezoelectric materials, known for their ability to harvest energy, have been extensively studied in this field. This review provides an overview of recent advances in enhancing the piezoelectricity of electrospun polymer nanofibers, discussing challenges and effective approaches to achieve high-performance piezoelectric sensors and energy harvesters for wearable technologies.

MACROMOLECULAR MATERIALS AND ENGINEERING (2023)

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Review Materials Science, Multidisciplinary

Recent Progress of Wearable Piezoelectric Pressure Sensors Based on Nanofibers, Yarns, and Their Fabrics via Electrospinning

Chuanwei Zhi et al.

Summary: This article comprehensively summarizes the recent progress in piezoelectric pressure sensors from electrospun nanofibers to fabrics, discusses strategies, designs, and mechanisms to enhance their properties, and explores the technical challenges and possible solutions for textile-level integration.

ADVANCED MATERIALS TECHNOLOGIES (2023)

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Article Nanoscience & Nanotechnology

Hierarchical PVDF-HFP/ZnO composite nanofiber-based highly sensitive piezoelectric sensor for wireless workout monitoring

Guo-Yi Li et al.

Summary: A high-sensitivity piezoelectric sensor has been developed by epitaxial growing ZnO nanosheets on PVDF-HFP nanofibers, enabling precise monitoring of subtle motion changes. This sensor exhibits high sensitivity, short response time, excellent durability and stability, and can accurately detect motion changes in athletes to prevent injuries from overtraining.

ADVANCED COMPOSITES AND HYBRID MATERIALS (2022)

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Review Polymer Science

Textile-Based Flexible Pressure Sensors: A Review

Jia-wen Zhang et al.

Summary: Textile-based flexible pressure sensors offer promising potential for integration into modern garments and applications in electronic skin, healthcare, and human motion capture. Challenges and prospects in the development of these sensors are also discussed.

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Review Nanoscience & Nanotechnology

Piezoelectric Fibers: Processing and Challenges

Sarah Scheffler et al.

Summary: Integration of piezoelectric materials in composite and textile structures is promising for creating smart textiles with sensing or energy harvesting functionalities. Inorganic ceramics have excellent piezoelectric properties, while organic polymer fibers are easier to manufacture but have lower piezoelectric efficiency. Processing techniques, challenges, and potential applications in textiles and composites are discussed.

ACS APPLIED MATERIALS & INTERFACES (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 Multidisciplinary Sciences

Single fibre enables acoustic fabrics via nanometre-scale vibrations

Wei Yan et al.

Summary: Inspired by the auditory system, this study introduces a fabric that functions as a sensitive microphone while retaining the traditional qualities of fabrics. The fabric utilizes high-Young's modulus textile yarns and thermally drawn composite piezoelectric fibers to convert tenuous pressure waves at audible frequencies into electrical signals. The results show that nanometer-level vibrational modes in the fabric are responsible for the electrical output of the fibers. Applications of this study include measuring the direction of acoustic impulses, establishing bidirectional communication between fabrics, and auscultating cardiac sound signals.

NATURE (2022)

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Article Chemistry, Multidisciplinary

Wearable Hybrid Device Capable of Interactive Perception with Pressure Sensing and Visualization

Yunjian Guo et al.

Summary: This study proposes an integrated hybrid device based on ionic sensing and electrochromic display for interactive pressure perception and visualization. It enables quantitative pressure sensing and direct color changing through the efficient reuse of electrodes and ionic gel. The study explores applications including pressure information perception, visual information hiding and display, and repeated writing and erasing on flexible boards. Multiple customized systems are implemented for remote monitoring and visual warning of behavioral states and physiological parameters.

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Article Engineering, Mechanical

High-flexibility piezoelectric ribbon fiber fabrication through multi-material thermal drawing

Seungmin Lee et al.

Summary: In this study, an amorphous poly(vinylidene fluoride-hexafluoropropylene) copolymer is proposed as a cladding material for highly flexible and reliable piezoelectric ribbon fibers. The fibers show good performance under tensile strain and bending deformation, making them potential candidates for wearable sensor applications.

JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY (2022)

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Review Biophysics

Bio-piezoelectricity: fundamentals and applications in tissue engineering and regenerative medicine

Nagwa Ahmed Kamel

Summary: In recent years, the interest in smart materials among the biomedical community has increased due to their ability to modify their properties in response to external stimuli or changes in surroundings. One interesting group of smart materials is biocompatible piezoelectric materials, which can produce electrical charges without an external power source. These piezoelectric materials can renew and regenerate tissues through specific pathways, similar to those found in the extracellular matrix. This review provides an overview of the piezoelectric phenomenon, piezoelectric effects in biological tissues, piezoelectric biomaterials, and their applications in tissue engineering and biosensors.

BIOPHYSICAL REVIEWS (2022)

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Article Biophysics

Progress of flexible strain sensors for physiological signal monitoring

Zhiran Shen et al.

Summary: Flexible strain sensors play a crucial role in wearable and implantable electronics for human health monitoring and diagnosis. This paper selectively reviews the recent progresses and correlations between the device microstructure and their corresponding applications in flexible strain sensors, highlighting the advancements and potential future challenges in this field.

BIOSENSORS & BIOELECTRONICS (2022)

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Biocompatible and breathable all-fiber-based piezoresistive sensor with high sensitivity for human physiological movements monitoring

Wenwen Du et al.

Summary: This study presents a biocompatible and breathable all-fiber-based piezoresistive sensor with high sensitivity. The sensor has excellent flexibility, reliable breathability, favorable biocompatibility, rapid response/recovery time, and excellent cycling stability. The introduction of an insulation layer further enhances the sensitivity of the sensor.

CHEMICAL ENGINEERING JOURNAL (2022)

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Article Chemistry, Physical

A high-performance, biocompatible, and degradable piezoresistive-triboelectric hybrid device for cross-scale human activities monitoring and self-powered smart home system

Huiyun Zhang et al.

Summary: This study presents a biocompatible and degradable hybrid device that can detect pressure with high sensitivity and has self-powered capability. By introducing a bottom stable resistance layer, the device achieves high sensitivity and wide response range, making it suitable for monitoring various human activities. The device also enables the construction of a self-powered smart home system and shows good biocompatibility and degradability through cell culture and degradation experiments.

NANO ENERGY (2022)

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Article Nanoscience & Nanotechnology

Enhanced sensing performance of polyvinylidene fluoride nanofibers containing preferred oriented carbon nanotubes

Sobhan Sharafkhani et al.

Summary: The preferential orientation of carbon nanotubes in polyvinylidene fluoride nanofibers can be achieved by adjusting the electrospinning conditions, and the weight percentage of the nanotubes significantly affects the performance of the polymer.

ADVANCED COMPOSITES AND HYBRID MATERIALS (2022)

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Article Engineering, Electrical & Electronic

Weave-pattern-dependent fabric piezoelectric pressure sensors based on polyvinylidene fluoride nanofibers electrospun with 50 nozzles

Da Bin Kim et al.

Summary: This study presents the design and performance analysis of fabric-based piezoelectric pressure sensors with different weave structures. It demonstrates that the pressure sensor with a 2/2 weft rib pattern exhibits high sensitivity and can be used to detect various environmental input sources and human motions.

NPJ FLEXIBLE ELECTRONICS (2022)

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Article Materials Science, Multidisciplinary

A high-accuracy, real-time, intelligent material perception system with a machine-learning-motivated pressure-sensitive electronic skin

Xiao Wei et al.

Summary: Developing low-cost, highly sensitive e-skins is crucial for intelligent perception. In this study, a hybrid e-skin was developed using an eggshell membrane and infiltration method, allowing for the perception of static and dynamic tactile information. With the integration of a high-speed data collector and machine learning, the e-skin was able to recognize materials in real time. Furthermore, the e-skin demonstrated the capability of processing multidimensional information simultaneously.

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Review Chemistry, Multidisciplinary

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Weili Deng et al.

Summary: The development of flexible piezoelectric nanogenerators has made significant progress in the past decade and is crucial for future personalized healthcare technologies. These devices offer efficient energy conversion, easy implementation, and self-powering capabilities, enabling innovative healthcare applications in sensing, therapy, and energy harvesting. This article provides a comprehensive review of piezoelectric nanogenerators in personalized healthcare, covering the fundamental physics, material engineering, device design, and various applications in energy harvesting, sensing, and therapeutics. The challenges and opportunities of utilizing these nanogenerators for self-powered bioelectronics and personalized healthcare are also discussed in detail.

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High-Performance Poly(vinylidene difluoride)/Dopamine Core/Shell Piezoelectric Nanofiber and Its Application for Biomedical Sensors

Tong Li et al.

Summary: The research introduces a new strategy for fabricating soft piezoelectric nanomaterials with excellent performance and stability. A highly sensitive all-fiber-based soft sensor has been successfully developed and demonstrated high accuracy and sensitivity for physiological mechanical stimulation in in vivo experiments.

ADVANCED MATERIALS (2021)

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High-performance piezoelectric nanogenerator based on electrospun ZnO nanorods/P(VDF-TrFE) composite membranes for energy harvesting application

Lanlin Ye et al.

Summary: A novel flexible zinc oxide nanorods/poly(vinylidene fluoride-trifluoroethylene) nanocomposite was prepared by electrospinning for fabricating a piezoelectric nanogenerator. The addition of different levels of piezoelectric ZnO nanorods can significantly improve the performance of the piezoelectric nanogenerator.

JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS (2021)

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Highly Stretchable Self-Powered Wearable Electrical Energy Generator and Sensors

Fatemeh Mokhtari et al.

Summary: This article introduces a new method to create wearable energy generators and sensors using nanostructured hybrid fibers, which have high stretchability and achieve higher voltage output and power density. The developed coiled piezoelectric fibers show a peak power density 2.5 times higher than previously reported piezoelectric textiles, with an energy conversion efficiency of 22.5%. The prototype wearable device based on hybrid piezofibers demonstrates efficient energy harvesting and real-time healthcare monitoring.

ADVANCED MATERIALS TECHNOLOGIES (2021)

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Review Chemistry, Multidisciplinary

Muscle Fibers Inspired High-Performance Piezoelectric Textiles for Wearable Physiological Monitoring

Yuanjie Su et al.

Summary: The development of a muscle fiber-inspired nonwoven piezoelectric textile for wearable physiological monitoring demonstrates outstanding sensitivity and long-term stability. Through experimental and theoretical validation, the textile shows potential applications in pulse wave measurement, human motion monitoring, and active voice recognition. This cost-effective approach paves the way for high-performance and self-powered wearable bioelectronics in personalized healthcare.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Review Chemistry, Physical

A comprehensive review on the state-of-the-art of piezoelectric energy harvesting

Nurettin Sezer et al.

Summary: Piezoelectric energy harvesting technology converts mechanical energy into electric power and has gained significant attention in the scientific community. Advances in materials and manufacturing processes are expected to power many electronics with piezoelectric generators in the future.

NANO ENERGY (2021)

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Article Chemistry, Physical

MXene-enhanced β-phase crystallization in ferroelectric porous composites for highly-sensitive dynamic force sensors

Jinyoung Kim et al.

Summary: The study demonstrates self-powered piezoelectric e-skins with high sensitivity and broad sensing range based on 3D porous structures of MXene/PVDF. The porous structures enhance the piezoelectric sensitivity, resulting in significant performance improvements in low and high-pressure ranges.

NANO ENERGY (2021)

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Article Nanoscience & Nanotechnology

Electrospun PVDF/PAN membrane for pressure sensor and sodium-ion battery separator

Zhongzhu Liu et al.

Summary: The PVDF/PAN membrane fabricated via electrospinning method shows uniform morphology and high beta-phase content, exhibiting excellent tensile properties and piezoelectric output voltage for real-time monitoring of human movement and use as a separator for sodium-ion battery.

ADVANCED COMPOSITES AND HYBRID MATERIALS (2021)

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Article Nanoscience & Nanotechnology

Superflexible and Lead-Free Piezoelectric Nanogenerator as a Highly Sensitive Self-Powered Sensor for Human Motion Monitoring

Di Yu et al.

Summary: The study reveals the advantage of low Curie temperature in flexible piezoelectric sensors, which enables large polarization changes with small alterations of force. The high piezoelectric coefficient and low T-c of BaTi0.88Sn0.12O3 (BTS) make it a suitable material for this purpose. Self-powered sensors based on BTS-GFF/PVDF composites demonstrate outstanding performance in detecting tiny forces in the low force region.

NANO-MICRO LETTERS (2021)

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Article Nanoscience & Nanotechnology

One-Step Preparation of a Core-Spun Cu/P(VDF-TrFE) Nanofibrous Yarn for Wearable Smart Textile to Monitor Human Movement

Zhang Dai et al.

Summary: A piezoelectric sensing fabric was proposed based on core-spun Cu/P(VDF-TrFE) nanofibrous yarns, showing good flexibility, breathability, mechanical stability, and sensing capability. The fabric could generate a current of 38 nA and voltage of 2.7 V under 15 N pressure.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Review Chemistry, Multidisciplinary

Construction of Bio-Piezoelectric Platforms: From Structures and Synthesis to Applications

Qianqian Xu et al.

Summary: Piezoelectric materials have been widely used in important fields such as sensing, energy harvesting, wastewater treatment, and catalysis. Recent advances in material synthesis have offered new opportunities for the development of bio-piezoelectric materials with excellent biocompatibility and piezoelectric performance. Interdisciplinary research interest has been attracted to the versatile biomedical applications of bio-piezoelectric materials due to recent insights on the impact of piezoelectricity on biological systems.

ADVANCED MATERIALS (2021)

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Article Materials Science, Multidisciplinary

Wave-Shaped Piezoelectric Nanofiber Membrane Nanogenerator for Acoustic Detection and Recognition

Fan Xu et al.

Summary: With the rapid development of technology, converting environmental energies into electrical energy through energy harvesting has become a significant challenge. Research on piezoelectric polymers shows that manufacturing higher-performance 3D wave-shaped piezoelectric devices can be applied in acoustic detection and recognition.

ADVANCED FIBER MATERIALS (2021)

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Review Chemistry, Multidisciplinary

The intrinsic piezoelectric properties of materials - a review with a focus on biological materials

Ratanak Lay et al.

Summary: Piezoelectricity in biological and non-biological materials is explored for various applications, with biological materials offering advantages such as biodegradability, biocompatibility, and low toxicity.

RSC ADVANCES (2021)

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Article Materials Science, Multidisciplinary

A Novel Strategy to Fabricate Core-Sheath Structure Piezoelectric Yarns for Wearable Energy Harvesters

Lili Xue et al.

Summary: This work presents a novel strategy to prepare highly integrated PVDF/conductive nylon core-sheath structure piezoelectric yarns for wearable devices, combining electrospinning strategy with 2D braiding technology. The fineness and strength of the yarn are significantly improved, and the electrical performance is affected by the length and thickness of the yarn. Both the piezoelectric yarn and fabric can generate piezoelectric output signals through human movement, demonstrating significant improvements in electrical and mechanical performance for wearable piezoelectric devices based on yarns and fabrics.

ADVANCED FIBER MATERIALS (2021)

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Review Nanoscience & Nanotechnology

A comprehensive review on fundamental properties and applications of poly(vinylidene fluoride) (PVDF)

Pooja Saxena et al.

Summary: PVDF is favored for its excellent piezoelectric properties, thermal stability, and mechanical strength, making it suitable for applications in sensors, actuators, magnetoelectric materials, and energy harvesting. Its insulating properties and high concentration of deep trapping sites make PVDF a top choice for charge transportation and storage studies. PVDF shows intelligent direction in various fields of science and technology with its unique physical, chemical, thermal, and mechanical properties.

ADVANCED COMPOSITES AND HYBRID MATERIALS (2021)

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Review Chemistry, Multidisciplinary

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Daeyeong Kim et al.

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Wearable Electronic Textiles from Nanostructured Piezoelectric Fibers

Fatemeh Mokhtari et al.

ADVANCED MATERIALS TECHNOLOGIES (2020)

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Highly shape adaptive fiber based electronic skin for sensitive joint motion monitoring and tactile sensing

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NANO ENERGY (2020)

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Hierarchically architected polydopamine modified BaTiO3@P(VDF-TrFE) nanocomposite fiber mats for flexible piezoelectric nanogenerators and self-powered sensors

Xiaoyang Guan et al.

NANO ENERGY (2020)

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Ferroelectric Polymers Exhibiting Negative Longitudinal Piezoelectric Coefficient: Progress and Prospects

Yang Liu et al.

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Wearable multimode sensors with amplified piezoelectricity due to the multi local strain using 3D textile structure for detecting human body signals

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NANO ENERGY (2020)

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Hierarchically structured PVDF/ZnO core-shell nanofibers for self-powered physiological monitoring electronics

Tao Yang et al.

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Piezoelectric pressure sensors based on GO-modified P(VDF-TrFE) fibers for vacuum applications

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JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS (2020)

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JOURNAL OF MATERIALS CHEMISTRY A (2020)

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The large piezoelectricity and high power density of a 3D-printed multilayer copolymer in a rugby ball-structured mechanical energy harvester

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Self-Powered Human-Health Monitoring through Aligned PVDF Nanofibers Interfaced Skin-Interactive Piezoelectric Sensor

Kuntal Maity et al.

ACS APPLIED POLYMER MATERIALS (2020)

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Durable, efficient, and flexible piezoelectric nanogenerator from electrospun PANi/HNT/PVDF blend nanocomposite

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JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS (2019)

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ACS SUSTAINABLE CHEMISTRY & ENGINEERING (2019)

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Cowpea-structured PVDF/ZnO nanofibers based flexible self-powered piezoelectric bending motion sensor towards remote control of gestures

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Article Chemistry, Physical

Biomechanical and Acoustic Energy Harvesting from TiO2 Nanoparticle Modulated PVDF Nanofiber Made High Performance Nanogenerator

Md. Mehebub Alam et al.

ACS APPLIED ENERGY MATERIALS (2018)

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Article Robotics

Covering a Robot Fingertip With uSkin: A Soft Electronic Skin With Distributed 3-Axis Force Sensitive Elements for Robot Hands

Tito Pradhono Tomo et al.

IEEE ROBOTICS AND AUTOMATION LETTERS (2018)

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Article Engineering, Electrical & Electronic

Energy harvesting textiles for a rainy day: woven piezoelectrics based on melt-spun PVDF microfibres with a conducting core

Anja Lund et al.

NPJ FLEXIBLE ELECTRONICS (2018)

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Article Thermodynamics

Worm structure piezoelectric energy harvester using ionotropic gelation of barium titanate-calcium alginate composite

Nagamalleswara Rao Alluri et al.

ENERGY (2017)

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Article Chemistry, Analytical

A Capacitive Humidity Sensor Based on an Electrospun PVDF/Graphene Membrane

Daniel Hernandez-Rivera et al.

SENSORS (2017)

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Review Chemistry, Physical

Multiscale-structuring of polyvinylidene fluoride for energy harvesting: the impact of molecular-, micro- and macro-structure

Chaoying Wan et al.

JOURNAL OF MATERIALS CHEMISTRY A (2017)

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Article Materials Science, Multidisciplinary

Enhanced electroactive β-phase of the sonication-process-derived PVDF-activated carbon composite film for efficient energy conversion and a battery-free acceleration sensor

Nagamalleswara Rao Alluri et al.

JOURNAL OF MATERIALS CHEMISTRY C (2017)

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Article Chemistry, Physical

Flexible fiber-based hybrid nanogenerator for biomechanical energy harvesting and physiological monitoring

Xuexian Chen et al.

NANO ENERGY (2017)

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Article Chemistry, Physical

Flexible piezoelectric nano-composite films for kinetic energy harvesting from textiles

Ahmed Almusallam et al.

NANO ENERGY (2017)

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Article Materials Science, Multidisciplinary

Physico-Mechanical, Dielectric, and Piezoelectric Properties of PVDF Electrospun Mats Containing Silver Nanoparticles

Ahmed A. Issa et al.

C-JOURNAL OF CARBON RESEARCH (2017)

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Article Chemistry, Multidisciplinary

Large-Area All-Textile Pressure Sensors for Monitoring Human Motion and Physiological Signals

Mengmeng Liu et al.

ADVANCED MATERIALS (2017)

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Article Nanoscience & Nanotechnology

Nanofibrous Smart Fabrics from Twisted Yarns of Electrospun Piezopolymer

Enlong Yang et al.

ACS APPLIED MATERIALS & INTERFACES (2017)

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Article Chemistry, Multidisciplinary

Piezoelectric Micro-and Nanostructured Fibers Fabricated from Thermoplastic Nanocomposites Using a Fiber Drawing Technique: Comparative Study and Potential Applications

Xin Lu et al.

ACS NANO (2017)

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Review Nanoscience & Nanotechnology

Stretchable piezoelectric nanocomposite generator

Kwi-Il Park et al.

NANO CONVERGENCE (2016)

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Article Nanoscience & Nanotechnology

High-Performance Coils and Yarns of Polymeric Piezoelectric Nanofibers

Mahmoud Baniasadi et al.

ACS APPLIED MATERIALS & INTERFACES (2015)

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Article Physics, Applied

Self-amplified piezoelectric nanogenerator with enhanced output performance: The synergistic effect of micropatterned polymer film and interweaved silver nanowires

Chang Liu et al.

APPLIED PHYSICS LETTERS (2015)

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Article Chemistry, Multidisciplinary

Bioinspired piezoelectric nanogenerators based on vertically aligned phage nanopillars

Dong-Myeong Shin et al.

ENERGY & ENVIRONMENTAL SCIENCE (2015)

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Article Instruments & Instrumentation

Design and characterization of scalable woven piezoelectric energy harvester for wearable applications

Seunghwan Song et al.

SMART MATERIALS AND STRUCTURES (2015)

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Review Chemistry, Multidisciplinary

Advances of flexible pressure sensors toward artificial intelligence and health care applications

Yaping Zang et al.

MATERIALS HORIZONS (2015)

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Review Polymer Science

Nanostructured piezoelectric polymers

Valentina Cauda et al.

JOURNAL OF APPLIED POLYMER SCIENCE (2015)

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Article Chemistry, Multidisciplinary

Highly-Effi cient, Flexible Piezoelectric PZT Thin Film Nanogenerator on Plastic Substrates

Kwi-Il Park et al.

ADVANCED MATERIALS (2014)

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Article Chemistry, Multidisciplinary

Novel 3-D spacer all fibre piezoelectric textiles for energy harvesting applications

Navneet Soin et al.

ENERGY & ENVIRONMENTAL SCIENCE (2014)

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Review Instruments & Instrumentation

A review of piezoelectric polymers as functional materials for electromechanical transducers

Khaled S. Ramadan et al.

SMART MATERIALS AND STRUCTURES (2014)

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Article Chemistry, Multidisciplinary

Studies on the transformation process of PVDF from alpha to beta phase by stretching

Li Li et al.

RSC ADVANCES (2014)

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Review Chemistry, Multidisciplinary

25th Anniversary Article: The Evolution of Electronic Skin (E-Skin): A Brief History, Design Considerations, and Recent Progress

Mallory L. Hammock et al.

ADVANCED MATERIALS (2013)

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Article Nanoscience & Nanotechnology

Virus-based piezoelectric energy generation

Byung Yang Lee et al.

NATURE NANOTECHNOLOGY (2012)

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Article Materials Science, Multidisciplinary

Nucleation of electroactive β-phase poly(vinilidene fluoride) with CoFe2O4 and NiFe2O4 nanofillers: a new method for the preparation of multiferroic nanocomposites

P. Martins et al.

APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING (2011)

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Article Thermodynamics

Crystallization of poly(vinylidene fluoride) during ultra-fast cooling

A. Gradys et al.

THERMOCHIMICA ACTA (2007)

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Article Engineering, Chemical

Study of thermally poled and corona charged poly(vinylidene fluoride) films

Yadong Jiang et al.

POLYMER ENGINEERING AND SCIENCE (2007)

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