Jianyi Luo
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View article: Bionic Perception of Surface Adhesion via a Magnetized Spring-like Sensor with Axial Stretchability
Bionic Perception of Surface Adhesion via a Magnetized Spring-like Sensor with Axial Stretchability Open
Perception of surface adhesion is one essential capability of a human fingertip, which is normally realized by touching the target surface with subsequent skin vibrations. However, such functionality is difficult to realize in flexible sen…
View article: Fluorobenzene Side Chain‐Engineered Y6 Derivatives for Enhanced Molecular Stacking and High‐Performance Additive‐Free Organic Solar Cells
Fluorobenzene Side Chain‐Engineered Y6 Derivatives for Enhanced Molecular Stacking and High‐Performance Additive‐Free Organic Solar Cells Open
Organic solar cells (OSCs) have become a promising photovoltaic technology, achieving high efficiencies over 20%. However, simplifying processing techniques to maintain high performance remains a significant challenge. This work reports a …
View article: Machine-learning based photon counting for PMT waveforms and its application to the improvement of the energy resolution in large liquid scintillator detectors
Machine-learning based photon counting for PMT waveforms and its application to the improvement of the energy resolution in large liquid scintillator detectors Open
Photomultiplier tubes (PMTs) are widely used in particle experiments for photon detection. PMT waveform analysis is crucial for high-precision measurements of the position and energy of incident particles in liquid scintillator (LS) detect…
View article: Machine-Learning based photon counting for PMT waveforms and its application to the improvement of the energy resolution in large liquid scintillator detectors
Machine-Learning based photon counting for PMT waveforms and its application to the improvement of the energy resolution in large liquid scintillator detectors Open
Photomultiplier tubes (PMTs) are widely used in particle experiments for photon detection. PMT waveform analysis is crucial for high-precision measurements of the position and energy of incident particles in liquid scintillator (LS) detect…
View article: Efficient gradient heating-up approach for rapid growth of high-quality amorphous ZrO<sub>2</sub> dielectric films
Efficient gradient heating-up approach for rapid growth of high-quality amorphous ZrO<sub>2</sub> dielectric films Open
High-k oxide dielectric films are indispensable for low-power-consumption oxide thin-film transistors (TFTs) applied in advanced and portable electronics. However, high-quality oxide dielectric films prepared by solution process typically …
View article: Single Channel Based Interference‐Free and Self‐Powered Human–Machine Interactive Interface Using Eigenfrequency‐Dominant Mechanism
Single Channel Based Interference‐Free and Self‐Powered Human–Machine Interactive Interface Using Eigenfrequency‐Dominant Mechanism Open
The recent development of wearable devices is revolutionizing the way of human–machine interaction (HMI). Nowadays, an interactive interface that carries more embedded information is desired to fulfill the increasing demand in era of Inter…
View article: The Counterbalancing Role of Oxygen Vacancy between the Electrochromic Properties and the Trapping Effect Passivation for Amorphous Tungsten Oxide Films
The Counterbalancing Role of Oxygen Vacancy between the Electrochromic Properties and the Trapping Effect Passivation for Amorphous Tungsten Oxide Films Open
Defect engineering of electrode materials is considered highly effective in regulating their performance, among which oxygen vacancies play a vital role. Thereupon, comprehensively understanding effects of oxygen vacancy in electrochemical…
View article: Ultrafine and Microinvasive Temperature Probe for Real‐Time Monitoring Core Body Temperature
Ultrafine and Microinvasive Temperature Probe for Real‐Time Monitoring Core Body Temperature Open
Anesthetics can affect temperature regulation when administered to an anesthetized individual, which can be tracked by measuring the core body temperature. This is useful in assessing the depth and consistency of the anesthesia, as well as…
View article: Single channel based interference-free and self-powered human-machine interactive interface using eigenfrequency-dominant mechanism
Single channel based interference-free and self-powered human-machine interactive interface using eigenfrequency-dominant mechanism Open
The recent development of wearable devices is revolutionizing the way of human-machine interaction (HMI). Nowadays, an interactive interface that carries more embedded information is desired to fulfil the increasing demand in era of Intern…
View article: Pivotal Role of the Granularity Uniformity of the WO3 Film Electrode upon the Cyclic Stability during Cation Insertion/Extraction
Pivotal Role of the Granularity Uniformity of the WO3 Film Electrode upon the Cyclic Stability during Cation Insertion/Extraction Open
Delicate design and precise manipulation of electrode morphology has always been crucial in electrochemistry. Generally, porous morphology has been preferred due to the fast kinetic transport characteristics of cations. Nevertheless, more …
View article: A smart bionic finger for subsurface tactile tomography
A smart bionic finger for subsurface tactile tomography Open
Bio-robot equipped with tactile sensors can simulate humans to sense surface characteristic information of an object, but acquiring subsurface information from materials remains challenging. Here, we introduce a smart bionic finger with su…
View article: Ultracompact Vernier-effect-improved sensor by a single microfiber-knot resonator
Ultracompact Vernier-effect-improved sensor by a single microfiber-knot resonator Open
Fiber-optic sensors are an indispensable element of modern sensing technologies by virtue of their low cost, excellent electromagnetic immunity, and remote sensing capability. Optical Vernier effect is widely used to enhance sensitivity of…
View article: Digitizing Human Motion via Bending Sensors toward Humanoid Robot
Digitizing Human Motion via Bending Sensors toward Humanoid Robot Open
A humanoid robot is an advanced representation of robot techniques. It can move like a human and possesses the ability to use human tools. Sensing and intelligent control technologies have increased the intelligence of humanoid robots. How…
View article: High Power Factor of Ag2Se/Ag/Nylon Composite Films for Wearable Thermoelectric Devices
High Power Factor of Ag2Se/Ag/Nylon Composite Films for Wearable Thermoelectric Devices Open
A flexible thermoelectric device has been considered as a competitive candidate for powering wearable electronics. Here, we fabricated an n-type Ag2Se/Ag composite film on a flexible nylon substrate using vacuum-assisted filtration and a c…
View article: Waterproof, Anti‐Impacted, and Ultrathin Carbon‐Based Air Pressure Sensors Toward Aerodynamic Tests on High‐Speed Trains
Waterproof, Anti‐Impacted, and Ultrathin Carbon‐Based Air Pressure Sensors Toward Aerodynamic Tests on High‐Speed Trains Open
A flexible ultrathin air pressure sensor is developed by Zhiming Chen, Jianyi Luo, and co-workers, article number 2101781. This sensor is based on a sense materials of carbon fiber beams and a sealed microchamber structure, which allows th…
View article: Magnetized Micropillar-Enabled Wearable Sensors for Touchless and Intelligent Information Communication
Magnetized Micropillar-Enabled Wearable Sensors for Touchless and Intelligent Information Communication Open
View article: Fiber-junction design for directional bending sensors
Fiber-junction design for directional bending sensors Open
Flexible sensors in wearable electronics have become increasingly multifunctional due to the development of materials synthesis and structure design. In particular, structural design can not only add capabilities to sensors fabricated from…
View article: Identifying human body states by using a flexible integrated sensor
Identifying human body states by using a flexible integrated sensor Open
View article: Controllable two-dimensional movement and redistribution of lithium ions in metal oxides
Controllable two-dimensional movement and redistribution of lithium ions in metal oxides Open
View article: Metal-seed planting fabrication of W–W<sub>18</sub>O<sub>49</sub> core shell nanoflowers for gas sensors
Metal-seed planting fabrication of W–W<sub>18</sub>O<sub>49</sub> core shell nanoflowers for gas sensors Open
In this study, a new kind of metal oxide nanoflower has been controllably synthesized on pre-designed regions of a substrate by a metal-seed planting method, in which the nanoflowers only appear where the metal seeds are planted.