A5028630734- Advanced Sensor and Energy Harvesting Materials
- Electrowetting and Microfluidic Technologies
- Tactile and Sensory Interactions
- Interactive and Immersive Displays
- Modular Robots and Swarm Intelligence
- Advanced Materials and Mechanics
- Conducting polymers and applications
- Advanced Photocatalysis Techniques
- Nanomaterials and Printing Technologies
- Gas Sensing Nanomaterials and Sensors
- TiO2 Photocatalysis and Solar Cells
- Liquid Crystal Research Advancements
- Polydiacetylene-based materials and applications
- Advanced MEMS and NEMS Technologies
- Neuroscience and Neural Engineering
- Perovskite Materials and Applications
- Pediatric health and respiratory diseases
- Nanofabrication and Lithography Techniques
- Genomics and Phylogenetic Studies
- Advanced Optical Imaging Technologies
- Urban Stormwater Management Solutions
- Physical Unclonable Functions (PUFs) and Hardware Security
- Chaos-based Image/Signal Encryption
- Electrophoretic Deposition in Materials Science
- Ginseng Biological Effects and Applications
Sun Yat-sen University
2019-2024
First Affiliated Hospital of Henan University
2023
Peking University
2022-2023
Southern University of Science and Technology
2018-2019
Jinan University
2015
Abstract Highly sensitive flexible tactile sensors that can be fabricated in a low cost and efficient way are great demand for intelligent soft robotics friendly human–machine interaction. Herein, highly sensor is developed by using bionic micropatterned polydimethylsiloxane (m‐PDMS) replicated from lotus leaf. The m‐PDMS substrate consists of high‐aspect‐ratio low‐density microtowers, covered ultrathin silver nanowires as bottom electrode. capacitive sensing device constructed sandwiching...
Abstract Flexible electronic skins (e‐skins) with high sensitivity and broad‐range pressure sensing are highly desired in artificial intelligence, human–machine interaction. Capacitive‐type e‐skins have a simple configuration, but the change dimensions of dielectric layer is often quite limited, although introducing surface microstructures might improve some extent. Moreover, such structures typically require costly microfabrication methods to fabricate. Here, low‐cost microstructured ionic...
Nature has long offered human beings with useful materials. Herein, plant materials including flowers and leaves have been directly used as the dielectric material in flexible capacitive electronic skin (e-skin), which simply consists of a dried flower petal or leaf sandwiched by two electrodes. The is 3D cell wall network plays like compressible metamaterial that elastically collapses upon pressing plus some specific surface structures, thus device can sensitively respond to pressure. works...
Skin-like electronics require materials that are conducting, soft, intrinsically stretchable, and highly robust. However, electronic devices often consist of multilayers, the failure mostly starts from debonding layers because poor interfacial adhesion large mechanical mismatch. Herein, we introduce a fully organic stretchable electrode achieves high robustness by grafting substrate to improve introducing deep folds wrinkles stretchability. The exhibits sheet resistance 90 Ω/□ negligible...
Stretchable strain sensors suffer the trade-off between sensitivity and linear sensing range. Developing with both high wide range remains a formidable challenge. Different from conventional methods that rely on structure design of nanomaterial or substrate, here heterogeneous-surface strategy for silver nanowires (AgNWs) MXene is proposed to construct hierarchical microcrack (HMC) sensor. The heterogeneous surface distinct differences in cracks adhesion strengths divides sensor into two...
Bi<sub>2</sub>O<sub>3</sub>/BiVO<sub>4</sub> heterostructures with a p–n junction have been successfully synthesized and exhibited enhanced photoelectrochemical activity.
Inspired by biological diversity and uniqueness, the concept of bionic optical physical unclonable functions (PUFs) is proposed. Production simple, low-cost, green environmentally friendly. The extracted binary codes from PUFs are random, unclonable, robust enough for applications in entity authentication encrypted communication.
Abstract Flexible pressure sensors that respond to normal contact force, play a pivotal role in wide range of applications, such as health monitoring, robotic perception and artificial intelligence. With the increasing demand for specialized high-performance sensors, key parameters these including sensitivity, detection range, linearity, response time, cyclic stability, etc, have become crucial factors determining their suitability specific applications. The characterization has therefore an...
The aim of this study was to explore the combined efficacy ofeffective-component compatibility Bufei Yishen formula III (ECC-BYF III) and exercise rehabilitation (ER) in inhibiting airway mucus hypersecretion a chronic obstructive pulmonary disease (COPD) rat model.
Cesium lead halide perovskite nanocrystals (PNCs) have attracted great attention in optoelectronic devices due to their excellent optical properties, such as tunable emission wavelengths, long carrier lifetime, and narrow full width at half-maximum (fwhm). However, the poor stability of PNCs water or humid environments greatly limits wide-spreading applications. It is challenging prepare with long-term water. Herein, we successfully prepared CsPbBr3@PDMS microspheres by using emulsification...
The textile-based electrophoretic display has been created and exhibited high contrast ratio, a low voltage, good stability. static clothing dynamic wristband watch show the potential for truly wearable displays.
Paper-based electronics are gaining increasing attention because of their merits low cost, degradability, and foldability. However, the roughness porosity paper not conducive to deposition functional layers by conventional film-coating methods such as solution processing vacuum evaporation. In this work, a facile yet feasible process fabricate paper-based electrophoretic display (EPD) was demonstrated. This device combines eco-friendly characteristic with power consumption an EPD using...
Abstract Tremendous advances in stretchable and biocompatible electronics have led to broad requirements of wearable display devices. However, most devices suffer from insufficient reliability owing structural mismatch bubbles under repeated deformation. To address this issue, article presents a electrophoretic (SEPD) with reinforced adhesion by situ decoration between the hydrogel electrode elastomer layer. The SEPD maximum strain over 80% can still operate properly. Moreover, device is...
Stretchable and transparent electrodes (STEs) are indispensable components in numerous emerging applications such as optoelectrical devices wearable used health monitoring, human-machine interaction, artificial intelligence. However, STEs have limitations conductivity, robustness, transmittance owing to the exposure of substrate fatigue deformation nanomaterials under strain. In this study, an STE consisting conductive materials embedded situ self-cracking strain-spread channels by...
Abstract A self‐cracking structure is introduced to construct a stretchable electrophoretic e‐paper display device. Unlike the conventional sandwich structure, proposed device directly forms electrodes upon layer without laminating an extra layer. This avoids layer‐to‐layer mismatch under long‐term loading cycles and exhibits high stretchability robustness. prototype demonstrated simultaneously have stretchable, washable, rewritable features, which provides new paradigm for future wearable...
Abstract Electrophoretic display encountered several challenges towards high frame rate applications, such as long response time and driving voltage. In this study, liquid crystal additive doping can simultaneously increase the speed by 2.8 times reduce voltage to half of initial value electrophoretic dispersion. The backflow effect crystal, which induces an inversely electrorheological facilitates reverse micelles’ dielectrophoretic separation, was suggested be main reason for performance...
Hexagonal BiPO4 nanorods thin films with remarkable photoelectrocatalytic (PEC) performance were successfully fabricated on FTO substrates via cathodic electrodeposition. Chronoamperometry, linear sweep voltammertry (LSV) and electrochemical impedance spectroscopy (EIS) used to study the photoelectrochemical properties of these materials. The capability was evaluated by degradation methyl blue (MB). film deposited in 40 min has best catalytic activity good stability 30 h degrading...
Abstract Metagenomic binning is an essential technique for genome-resolved characterization of uncultured microorganisms in various ecosystems but hampered by the low efficiency tools adequately recovering metagenome-assembled genomes (MAGs). Here, we introduce BASALT (Binning Across a Series Assemblies Toolkit) and refinement short- long-read sequencing data. employs multiple binners with thresholds to produce initial bins, then utilizes neural networks identify core sequences remove...
In article number 1802343, Chuan Fei Guo and co-workers report a new approach to artificial skin based on the unique leaf structure of Calathea zebrine. Fast response time, very low limit detection good sensitivity promise application in human–machine interaction, motion detection, intelligence.
Abstract The demand for wearable display devices capable of real‐time information collection is growing rapidly. Among them, electrophoretic (EPD) shows features ultra‐low power consumption and high readability in sunlight, making them particularly suitable applications. However, due to driving voltage susceptibility salt, few EPD are reported so far. To address this, a stretchable compatible with textiles fabricated based on waterborne polyurethane. device exhibits great performance resist...
Wearable displays were recognized as one of the most universal user interface in future. In this work, our exploration functional wearable display is briefly discussed, including a novel driving scheme for alternating current electroluminescence (ACEL) and some recent studies on textile EPD devices with different structures. With these results, we may take step closer to applicable, reliable