A5024069953- Particle physics theoretical and experimental studies
- Quantum Chromodynamics and Particle Interactions
- High-Energy Particle Collisions Research
- Advanced Sensor and Energy Harvesting Materials
- Advanced biosensing and bioanalysis techniques
- Nanoplatforms for cancer theranostics
- Polyoxometalates: Synthesis and Applications
- Biosensors and Analytical Detection
- Advanced Materials and Mechanics
- Metal-Organic Frameworks: Synthesis and Applications
- Micro and Nano Robotics
- Advanced Memory and Neural Computing
- Additive Manufacturing and 3D Printing Technologies
- Wound Healing and Treatments
- X-ray Diffraction in Crystallography
- Advancements in Transdermal Drug Delivery
- Electrospun Nanofibers in Biomedical Applications
- biodegradable polymer synthesis and properties
- Crystallization and Solubility Studies
- Advanced Photocatalysis Techniques
- Neutrino Physics Research
- RNA Interference and Gene Delivery
- Nanomaterials and Printing Technologies
- Inorganic Chemistry and Materials
- 3D Printing in Biomedical Research
Tsinghua University
2016-2025
Argonne National Laboratory
2023
Ball State University
2023
Henan University
2020-2021
Jiangnan University
2020
State Key Laboratory of Food Science and Technology
2020
State Key Joint Laboratory of Environment Simulation and Pollution Control
2017-2019
Multi-stimulus responsive soft materials with integrated functionalities are elementary blocks for building intelligent systems, but their rational design remains challenging. Here, we demonstrate an architecture sensitized by magnetized liquid metal droplets that dispersed in a highly stretchable elastomer network. The supercooled serve as microscopic latent heat reservoirs, and controllable solidification releases localized thermal energy/information flows enabling programmable...
Abstract Bacterial infections, especially caused by multidrug‐resistant bacteria, pose a big challenge to the healthcare system. As group of historic agents, metals with broad‐spectrum antibacterial activity are regarded as promising alternatives tackle antibiotic resistance. Among them, gallium ions have presented encouraging effects in research and preclinic studies. However, utilization has difficulty achieving high targeting long‐term effectiveness. With renaissance liquid metal, here,...
Abstract As alternatives, metallic/nonmetallic bone graft materials play significant roles in defect surgery to treat external trauma or disease. However, date, there are rather limited long‐term implantable owning situ molding incapability of metallics and poor mechanical property nonmetallics. Here, Bi‐based low melting point alloy, with unique properties injectability, solid‐liquid phase transition, capability, biocompatibility, present obvious long‐lasting affinity as the excellent...
Abstract A gas-mediated fabrication of centimeter-scale two-dimensional (2D) semiconductors and ultraviolet photodetector by a liquid metal-based printing was reported. Various large-scale 2D materials (Ga 2 O 3 , In SnO) were demonstrated to be directly printed at ambient air on different substrates. Such represents generic, fast, clean, scalable technique quickly manufacture semiconductors. The electrical properties explored quantify the films, which somewhat deficient in previous studies....
Embolization has been an important minimally invasive therapy for occlusion of malfunctioned vasculature and tumor treatment via target delivering embolic agents. The limitation conventional agents, such as fabrication process, precipitation time, invisibility, lack integrated functions often leads to insufficient embolization efficacy. To overcome these drawbacks, a multifunctional bismuth (Bi)-based liquid agent simultaneous realization embolotherapy, thermotherapy, well high-contrast...
Abstract The drug‐eluting microspheres that have been widely used in clinical treatments such as chemoembolization commonly suffer from inadequate drug loading and tracking difficulties. With inherent high density excellent biocompatibility, liquid metal (LM) has explored at the frontiers of medical imaging therapy. Herein, multifunctional (SA/LM/DOX) are reported with multimodal by adsorbing silanized LM particles on sulfonated agarose (SA), which capable heating accelerating release under...
Surface blocking is a well-known process for reducing unwanted nonspecific adsorption in sensor fabrication, especially important the emerging field where DNA/RNA applied. Bovine serum albumin (BSA) one of most popular agents with an isoelectric point at pH 4.6. Although it widely recognized that agent strongly affected by its net charge and maximum often observed under form, BSA has long been perfunctorily used merely neutral solution, showing poor performances optical-fiber evanescent wave...
Abstract Storage systems are vital components of electronic devices, while significant challenges persist in achieving flexible memory due to the limitations existing storage methodologies. Inspired by polarization and depolarization mechanisms human brain, here a novel class principles is proposed achieve fully through introducing oxidation deoxidation behaviors liquid metals. Specifically, reversible electrochemical utilized modulate overall conductivity target metals, creating substantial...
Attributed to their soft and stretchable feature, flexible supercapacitors have attracted increasing attention in areas of electronics, wearable devices, energy storage systems. However, it is a challenge manufacture all-soft with highly properties excellent electrochemical performance. Here, an EGaIn-based fibrous supercapacitor, which composed two paralleled fibers, designed demonstrated first properties. EGaIn coated on the surface polyurethane (PU)@polymethacrylate (PMA) fibers can serve...
The misuse of antibiotics has led to antibiotic‐resistant “superbugs,” prompting the exploration alternative antibacterial strategies. This study focuses on promising avenue photothermal therapy (PTT). Despite numerous advantages, clinical applicability PTT as a sole sterilization strategy is hindered by necessity for higher temperatures, potentially causing harm healthy tissues. To overcome this challenge, introduces antimicrobial peptides (AMPs) modify surface gallium‐based liquid metal...
Innovations on materials and technologies have greatly promoted the rapid development of wearable electronics from disease diagnosis to therapeutics. For superficial skin tumors, skin-attachable patches possess advantages minimally invasive property, alleviative side effects, high efficiency. The noninvasive techniques devices is still in urgent demands. Here, a flexible patch fabricated through facile preparation method reported for hybrid thermophysical therapy adaptative immune function...
Quantification of cancer biomarker microRNAs (miRs) by exquisitely designed biosensors with a short time-to-result is great clinical significance. With immobilized capture probes (CPs) and fluorescent-labeled signal (SPs), surface-involved sandwich-type (SST) serve as powerful tools for rapid, highly sensitive, selective detection miR in complex matrices opposed to the conventional techniques. One key challenge such SST existence false-negative signals when amount miRs exceeds SPs solution...
In designing unmodified gold nanoparticles-based aptasensing (uGA) assays for antibiotics, we find that some antibiotics can adsorb directly on nanoparticles (GNP) regardless of the presence aptamers, which have been long overlooked in past. Some adsorptions, however, would strongly disturb charge distribution GNP surface, break up static colloidal profile, and thus generate false positive colorimetric signals. To identify qualified uGA assays, established two rational screening criteria...
The targeted antimicrobial efficacy of Vancomycin decreases significantly over time due to bacterial resistance, whereas Ga-based liquid metals, which are less prone inducing face challenges in achieving effects. To tackle these issues, a highly efficient agent with targeting properties has been developed by combining metals and Vancomycin. Moreover, the performance this can be greatly enhanced through use near-infrared light. Microscopic observations reveal that effectively encapsulated on...
Abstract Multifunctional medical hydrogels play an important role in wound healing because of their excellent biocompatibility, convenient operation, and drug release capacity. So far, many efforts have been exploited to developing new‐generation with distinctive capabilities promoting healing. Herein, the liquid‐metal (LM)‐loaded are reported antibacterial effect under 808 nm near‐infrared laser irradiation for therapeutic strategies. The addition LM droplets enables hydrogel control...
Ultrasensitive PCR-free microRNA (miR) analysis based on biosensors with enzyme-free nucleic acid amplification and reusable surface has great clinical significance in cancer prognosis. However, building such a biosensing strategy long been challenging due to uncontrollable miR-triggered cascade amplifiers insufficient sensing regeneration capability. To meet the challenge, for first time, general approach, named multitag-regulated reaction (MCR), is developed fabricate reliable trace miR...