A5084600710- Advanced Sensor and Energy Harvesting Materials
- Photoreceptor and optogenetics research
- Neuroscience and Neural Engineering
- Electromagnetic wave absorption materials
- Immune Cell Function and Interaction
- T-cell and B-cell Immunology
- Nanoplatforms for cancer theranostics
- MXene and MAX Phase Materials
- Photoacoustic and Ultrasonic Imaging
- Immunotherapy and Immune Responses
- Advanced Memory and Neural Computing
- Neural dynamics and brain function
- Conducting polymers and applications
- Metamaterials and Metasurfaces Applications
- Photodynamic Therapy Research Studies
- Advanced Antenna and Metasurface Technologies
- Endodontics and Root Canal Treatments
- Micro and Nano Robotics
- Molecular Communication and Nanonetworks
- Dental materials and restorations
- Polymer composites and self-healing
- Dental Radiography and Imaging
- Evaluation Methods in Various Fields
- Advanced Decision-Making Techniques
- Polydiacetylene-based materials and applications
Sichuan University
2022-2025
Yibin University
2022-2025
Qingdao University
2025
Stanford University
2022-2024
Neurosciences Institute
2022-2024
Virginia Tech
2017-2024
Shenzhen Technology University
2024
Chongqing Academy of Animal Science
2023-2024
University of Virginia
2024
Beijing Institute of Big Data Research
2024
Electronic devices are evolving from rigid into flexible and stretchable structures, enabling a seamless integration of electronics our everyday lives. The variety electronic materials within thermal-drawn fibers has emerged as versatile platform for the fabrication advanced functional fiber electronics. This approach exploits thermal drawing macroscopic preform, where or prefabricated arranged at prescribed position, yielding kilometers with sophisticated architecture complex...
Optical imaging plays a central role in biology and medicine but is hindered by light scattering live tissue. We report the counterintuitive observation that strongly absorbing molecules can achieve optical transparency animals. explored physics behind this found when dissolve water, they modify refractive index of aqueous medium through Kramers-Kronig relations to match high-index tissue components such as lipids. have demonstrated our straightforward approach reversibly render mouse body...
Abstract Reactive oxygen species (ROS)‐induced endoplasmic reticulum (ER) stress in sonodynamic therapy (SDT) can elicit immunogenic cell death (ICD)‐initiated antitumor immunity for augmented sono‐immunotherapy. However, unsatisfactory activity and mediocre ER induction ability of sonosensitizers essentially restrict SDT efficacy ICD stimulation. Herein, a versatile ER‐targeting Iridium(III) nanosonosensitizer is developed as superior inducer boosted tumor An ingenious cholic acid...
Abstract Understanding the cytoarchitecture and wiring of brain requires improved methods to record stimulate large groups neurons with cellular specificity. This miniaturized neural interfaces that integrate into tissue without altering its properties. Existing interface technologies have been shown provide high-resolution electrophysiological recording high signal-to-noise ratio. However, single implantation, physical properties these devices limit their access one, small region. To...
Abstract Astrocytes extend endfeet that enwrap the vasculature, and disruptions to this association which may occur in disease coincide with breaches blood-brain barrier (BBB) integrity. Here we investigate if focal ablation of astrocytes is sufficient disrupt BBB mice. Targeted two-photon chemical apoptotic induced a plasticity response whereby surrounding extended processes cover vascular vacancies. In young animals, replacement advance endfoot retraction, but delayed aged animals....
Mechanoluminescent materials, which emit light in response to mechanical stimuli, have recently been explored as promising candidates for photonic skins, remote optogenetics, and stress sensing. All mechanoluminescent materials reported thus far are bulk solids with micron-sized grains, their emission is only produced when fractured or deformed form. In contrast, mechanoluminescence has never observed liquids colloidal solutions, limiting its biological application living organisms. Here, we...
Designing biomass-derived carbon-based lightweight electromagnetic wave (EMW) absorbers with multiple functions is promising research. However, the design of EMW multifunctionality for practical application remains a substantial challenge. Herein, porous architecture engineering strategy was used to prepare high-performance absorption composite material thermal insulation and flame-retardant properties The multifunctional Co/Nb2CTx/carbon aerogel composed bamboo-derived carbon aerogel,...
Light is used extensively in biological and medical research for optogenetic neuromodulation, fluorescence imaging, photoactivatable gene editing light-based therapies. The major challenge to the vivo implementation of methods deep-seated structures brain or internal organs limited penetration photons tissue. presence light scattering absorption has resulted development invasive techniques such as implantation optical fibers, insertion endoscopes surgical removal overlying tissues overcome...
With the rapid development of 5G intelligent detection technology, electromagnetic shielding/infrared stealth fabrics with Joule/solar heating performance can meet needs wearable electronic devices for multi-application scenarios.
Microelectrodes provide a direct pathway to investigate brain activities electrically from the external world, which has advanced our fundamental understanding of functions and been utilized for rehabilitative applications as brain-machine interfaces. However, minimizing tissue response prolonging functional durations these devices remain challenging. Therefore, development next-generation microelectrodes neural interfaces is actively progressing traditional inorganic materials toward...
Abstract With the recent development of wearable electronics and smart textiles, flexible sensor technology is gaining increasing attention. Compared to film‐based sensors, multimaterial fiber‐based offers unique advantages due breathability, durability, wear resistance, stretchability in fabric structures. Despite significant progress made fabrication application none existing fiber technologies allow for fully distributed pressure or temperature sensing. Herein, design thermally drawn...
Abstract Immune checkpoint blockade antibodies have promising clinical applications but suffer from disadvantages such as severe toxicities and moderate patient–response rates. None of the current delivery strategies, including local administration aiming to avoid systemic toxicities, can sustainably supply drugs over course weeks; adjustment drug dose, either lower or augment therapeutic response, is not possible. Herein, we develop an implantable miniaturized device using...
Abstract Highly stretchable fiber sensors have attracted significant interest recently due to their applications in wearable electronics, human–machine interfaces, and biomedical implantable devices. Here, a scalable approach for fabricating multifunctional electrical optical using thermal drawing process is reported. The can sustain at least 580% strain up 750% with helix structure. sensor simultaneously exhibits ultrahigh stretchability (400%), high gauge factors (≈1960), excellent...
Many in vivo biological techniques, such as fluorescence imaging, photodynamic therapy, and optogenetics, require light delivery into tissues. The limited tissue penetration of visible discourages the use external sources calls for development that can be delivered vivo. A promising material internal is persistent phosphors; however, there a scarcity materials with strong luminescence stable colloid to facilitate systemic Here, we used bioinspired demineralization (BID) strategy synthesize...
Although flexible wearable devices have received wide attention in various application scenarios, it is still a challenge to integrate multiple functions on single equipment. Here, an electrospun thermoplastic polyurethane (TPU) fibrous membrane selected as the substrate, and Ti3C2Tx MXene modified by ultrasonic coating, followed loading of silver nanoparticles (AgNPs) chemical deposition successfully prepare AgNPs/Ti3C2Tx/TPU membrane. The electromagnetic interference (EMI) shielding...
This study aimed to assess the effectiveness of sonic, ultrasonic and laser [photon-induced photoacoustic streaming (PIPS)] irrigation activation in removing filling remnants from oval root canals after standard canal retreatment procedures with ProTaper universal rotary system.Twenty-eight maxillary first premolars were instrumented NiTi instruments obturated gutta-percha AH Plus sealer using continuous wave condensation technique. After storage at 37°C 100% humidity for 1 week, specimens...
High-performance electrical nanofiber membranes with outstanding electromagnetic interference (EMI) shielding, wearable sensing, self-heating, and hydrophobic performances are highly desirable for modern integrated smart electronic devices. Here, lightweight, flexible, multifunctional Ti3C2Tx/AgNPs/thermoplastic polyurethane (TPU) prepared through microwave-assisted reduced Ag precursors followed by drip coating of Ti3C2Tx. The introduction polydimethylsiloxane (PDMS) can endow the membrane...
With the rise of concept "Internet Everything", development wearable sensing devices is growing rapidly. Among them, crack-based strain sensors have received much attention due to their high sensitivity. However, application has been limited by relatively narrow range. Here, a sandwich structure CNT/MXene/CNT layer was realized on flexible thermoplastic polyurethane substrate prepared electrospinning, followed layer-by-layer vacuum filtration. The two stable carbon nanotube (CNT) layers...