A5101964832- Advanced Sensor and Energy Harvesting Materials
- Conducting polymers and applications
- Supercapacitor Materials and Fabrication
- Advancements in Battery Materials
- Advanced battery technologies research
- Advanced Battery Materials and Technologies
- Neuroscience and Neural Engineering
- Hydrogels: synthesis, properties, applications
- Electrochemical sensors and biosensors
- Analytical Chemistry and Sensors
- Dielectric materials and actuators
- Traditional Chinese Medicine Analysis
- Advanced Battery Technologies Research
- Medicinal Plant Pharmacodynamics Research
- Nanoplatforms for cancer theranostics
- Microbial Community Ecology and Physiology
- Extracellular vesicles in disease
- Microbial Metabolic Engineering and Bioproduction
- Supramolecular Self-Assembly in Materials
- Protist diversity and phylogeny
- Electrospun Nanofibers in Biomedical Applications
- Ginseng Biological Effects and Applications
- Neonatal Health and Biochemistry
- 3D Printing in Biomedical Research
- Anaerobic Digestion and Biogas Production
Zhejiang University
2017-2025
Collaborative Innovation Center of Advanced Microstructures
2021-2025
Nanjing University
2020-2025
Zhejiang University of Science and Technology
2025
University of Science and Technology of China
2024
Donghua University
2017-2022
The First People's Hospital of Wenling
2022
Shandong University
2022
Ningbo First Hospital
2021
Guangxi University
2021
Abstract With the rapid advances in safe, flexible, and even stretchable electronic products, it is important to develop matching energy storage devices more effectively power them. However, use of conventional liquid electrolytes produces volatilization leakage that are dangerous requires strict packaging layers typically rigid. To this end, solid can overcome these problems have attracted increasing attention recent decades. In review article, three main types (i.e., inorganic, polymer,...
Abstract Zinc (Zn) metal is considered the promising anode for “post‐lithium” energy storage due to its high volumetric capacity, low redox potential, abundant reserve, and cost. However, extravagant Zn required in present batteries, featuring utilization rate device‐scale energy/power densities far below theoretical values. The limited reversibility of attributed spontaneous parasitic reactions with aqueous electrolytes, that is, corrosion water, passive by‐product formation, dendrite...
To develop wearable and implantable bioelectronics accommodating the dynamic uneven biological tissues reducing undesired immune responses, it is critical to adopt batteries with matched mechanical properties as power sources. However, available cannot reach softness of due high Young's moduli components (e.g., metals, carbon materials, conductive polymers, or composite materials). The fabrication tissue-like soft thus remains a challenge. Here, first ultrasoft totally based on hydrogels are...
Abstract New types of metal–organic framework (MOF) materials have great potential in solving the current global dilemma on energy, environment, and medical care. Herein, based two kinds biomolecule‐MOFs (Bio‐MOFs) with favorable biocompatibility degradation‐reconstruction characteristics, we established a self‐powered muti‐functional device to achieve an efficient broad‐spectrum environmental energy collection biomedical applications. Combining Zn(II) carnosine‐based Zn‐Car_MOF possessing...
Successful cancer therapy requires drugs being precisely delivered to tumors. Nanosized have attracted considerable recent attention, but their toxicity and high immunogenicity are important obstacles hampering clinical translation. Here we report a novel "cocktail therapy" strategy based on excess natural killer cell-derived exosomes (NKEXOs) in combination with biomimetic core-shell nanoparticles (NNs) for tumor-targeted therapy. The NNs were self- assembled dendrimer core loading...
Abstract Mg‐air batteries are explored as the next‐generation power systems for wearable and implantable electronics they could work stably in neutral electrolytes also biocompatible. However, high corrosion rate low utilization of Mg anode largely impair performance battery with discharge voltage, poor specific capacity energy density. Here, to best our knowledge, we first report a dual‐layer gel electrolyte simultaneously solve above two problems by preventing production dense passive...
Abstract Wearable sweat sensing technologies have received wide attention for personalized health monitoring with continuous and molecular‐level insight in a noninvasive manner. However, it remains significantly challenging to simultaneously capture sufficient volume of achieve stable contact between electrodes sweat, especially relatively mild sweating condition. Herein, wearable electrochemical fabric sensor is developed by embroidering diversified yarns multi‐ply cotton sheath carbon...
Abstract Electrical stimulation is a promising strategy for treating neural diseases. However, current energy suppliers cannot provide effective power in situ electrical stimulation. Here, an implantable tubular zinc–oxygen battery reported as the source during repair. The exhibited high volumetric density of 231.4 mWh cm −3 based on entire anode and cathode vivo. Due to its superior electrochemical properties biosafety, can be directly wrapped around nerve with minimal size 0.86 mm 3 . cell...
Abstract Medical surgical catheters are widely used in the medical field for drug delivery or postoperative drainage. However, infections associated with local temperature rise often occur at catheter‐tissue interface, resulting irreversible pathological damage, cognitive behavioral abnormalities, even an increased risk of mortality if not monitored time. Herein, situ temperature‐sensing hydrogel coating on outer surface real‐time infection monitoring is developed. The exhibits a record...
Homovanillic acid (HVA) is a major dopamine metabolite, and blood HVA considered as central nervous system (CNS) biomarker, which reflects the progression of dopamine-associated CNS diseases behavioral response to therapeutic drugs. However, facing various active substances interference, particularly structurally similar catecholamines their metabolites, real-time accurate monitoring remains challenge. Herein, highly selective implantable electrochemical fiber sensor based on molecularly...
ConspectusImplantable bioelectronics that interface directly with biological tissues have been widely used to alleviate symptoms of chronic diseases, restore lost or degraded body functions, and monitor health conditions in real-time. These devices revolutionized medicine by providing continuous therapeutic interventions diagnostics. Energy sources are the most critical components implantable bioelectronics, as they determine operational lifetime reliability. Compared other energy storage...
The stimuli-sensitive and biodegradable hydrogels are promising biomaterials as controlled drug delivery systems for diverse biomedical applications. In this study, we construct hybrid combined with peptide-based bis-acrylate acrylic acid (AAc). bis-acrylate/AAc hydrogel displays an interconnected porous structure by scanning electron microscopy (SEM) observation exhibits pH-dependent swelling property. biodegradation of was characterized SEM weight loss, the results showed have a good...
Multiwalled carbon nanotubes (MWCNTs) are split along the longitudinal direction to form quasi graphene oxide (QGO) by modified Hummers method and nanosheet/RuO2 (QGN/RuO2) composites with 40.0 wt% RuO2 loading prepared a one-step hydrothermal synthesis without any reducing agent. The characterization of morphology structure shows that amorphous nanoparticles uniformly dispersed on all surfaces QGN. electrochemical measurements show QGN/RuO2 exhibit good capacitive properties compared pure...
Abstract LiMn 2 O 4 spinel is emerging as a promising cathode material for lithium‐ion batteries, largely due to its open framework that facilitates Li + diffusion and excellent rate performance. However, the charge–discharge cycling of leads severe structural degradation rapid capacity decay. Here, an electrochemical activation strategy introduced, employing facile galvano‐potentiostatic charging operation, restore lost without damaging battery configuration. With strategy, cycle life...
Abstract Gels are formed by fluids that expand throughout the whole volume of 3D polymer networks. To unlock unprecedented properties, exploring new immobilized in networks is crucial. Here, a liquid metal‐polymer gel material termed “metalgel” introduced via fluid replacement strategy, featuring 92.40% vol metal as continuum interconnected nanoscale network. The unique structure endows metalgel with high electrical conductivity (up to 3.18 × 10 6 S·m ‒1 ), tissue‐like softness (Young's...
Diseases in pregnancy endanger millions of fetuses worldwide every year. The onset these diseases can be early warned by the dynamic abnormalities biochemicals amniotic fluid, thus requiring real-time monitoring. However, when continuously penetrated detection devices, amnion is prone to loss robustness and rupture, which difficult regenerate. Here, an interface-stabilized fiber sensor presented for monitoring biochemical dynamics fluid during pregnancy. seamlessly integrated into through...
Implantable batteries are urgently needed as a power source to meet the demands of next generation biomedical electronic devices. However, existing implantable suffer from unsatisfactory energy density, hindering miniaturization these Here, mitochondrion-inspired magnesium-oxygen biobattery that achieves both high density and biocompatibility in vivo is reported. The resulting exhibits recorded 2517 Wh L-1 /1491 kg-1 based on total volume/mass device vivo, which ≈2.5 times higher than...