A5100409757- Neuroscience and Neural Engineering
- Advancements in Battery Materials
- Advanced Sensor and Energy Harvesting Materials
- Conducting polymers and applications
- Crystallization and Solubility Studies
- Mesoporous Materials and Catalysis
- RNA Research and Splicing
- Supercapacitor Materials and Fabrication
- Advanced Memory and Neural Computing
- X-ray Diffraction in Crystallography
- Advanced Battery Materials and Technologies
- Photoreceptor and optogenetics research
- Single-cell and spatial transcriptomics
- Graphene research and applications
- 3D Printing in Biomedical Research
- Nanoparticles: synthesis and applications
- Advanced Battery Technologies Research
- Gas Sensing Nanomaterials and Sensors
- RNA and protein synthesis mechanisms
- Advanced biosensing and bioanalysis techniques
- Polymer Nanocomposites and Properties
- Neural dynamics and brain function
- Neuroinflammation and Neurodegeneration Mechanisms
- Electrocatalysts for Energy Conversion
- Semiconductor materials and devices
Harvard University
2015-2025
Chengdu University of Information Technology
2025
Liaoning Cancer Hospital & Institute
2021-2025
China Medical University
2019-2025
Stanford University
2014-2024
Fudan University
2008-2024
Nanjing University of Chinese Medicine
2024
Affiliated Hospital of Youjiang Medical University for Nationalities
2020-2024
Zhejiang University of Technology
2021-2024
Luoyang Institute of Science and Technology
2022-2024
Transcriptome mapping in the 3D brain RNA sequencing samples entire transcriptome but lacks anatomical information. In situ hybridization, on other hand, can only profile a small number of transcripts. technologies address these shortcomings face challenge dense, complex tissue environments. Wang et al. combined an efficient approach with hydrogel-tissue chemistry to develop multidisciplinary technology for three-dimensional (3D) intact-tissue (see Perspective by Knöpfel). More than 1000...
Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite approaches. Routes toward intrinsically molecular materials remain scarce but, if successful, will enable simpler fabrication processes, such as direct printing coating, mechanically robust devices, more intimate contact with objects. We report a highly conducting polymer, realized range of enhancers that serve dual function: (i) they change morphology (ii) act conductivity-enhancing dopants...
I've got a feeling Sensory (or afferent) nerves bring sensations of touch, pain, or temperature variation to the central nervous system and brain. Using tools materials organic electronics, Kim et al. combined pressure sensor, ring oscillator, an ion gel–gated transistor form artificial mechanoreceptor (see Perspective by Bartolozzi). The combination allows for sensing multiple inputs, which can be converted into sensor signal used drive motion cockroach leg in oscillatory pattern. Science ,...
Uniform magnetite particles stabilized by citrate groups were successfully synthesized a modified high-temperature solvothermal reaction. Cell imaging reveals that the water-dispersible can readily penetrate into cells without destroying them, indicating an excellent biocompatibility. A high enrichment capacity of for separation trace peptides is observed. Detailed facts importance to specialist readers are published as "Supporting Information". Such documents peer-reviewed, but not...
The precise control of the size, morphology, surface chemistry, and assembly process each component is important to construction integrated functional nanocomposites. We report here fabrication multifunctional microspheres which possess a core nonporous silica-protected magnetite particles, transition layer active gold nanoparticles, an outer shell ordered mesoporous silica with perpendicularly aligned pore channels. well-designed have high magnetization (18.6 emu/g), large area (236 m2/g),...
Significance Organic electronics, particularly polymers, can be synthesized and processed with low temperatures and, more importantly, have the potential to environmentally benign candidates for electronic applications. However, there has been no report of totally decomposable polymer semiconductors. Their availability will enable low-cost fully disintegrable transient electronics. We developed an innovative concept based on imine chemistry that allows biocompatible semiconducting polymers....
The bottom-up approach to synthesize graphene nanoribbons strives not only introduce a band gap into the electronic structure of but also accurately tune its value by designing both width and edge ribbons with atomic precision. We report synthesis an armchair nanoribbon nine carbon atoms on Au(111) through surface-assisted aryl-aryl coupling subsequent cyclodehydrogenation properly chosen molecular precursor. By combining high-resolution force microscopy, scanning tunneling Raman...
Magnetic zeolite microspheres are synthesized by combining sol-gel synthesis and vapor-phase transport. The microspheres, which have magnetite cores crystalline shells (see figure), exhibit super-paramagnetism a high adsorption capacity for trypsin. Trypsin-adsorbed digest proteins very efficiently (in only 15 s) in the presence of microwave radiation. Detailed facts importance to specialist readers published as "Supporting Information". Such documents peer-reviewed, but not copy-edited or...
The structural and functional complexity of multicellular biological systems, such as the brain, are beyond reach human design or assembly capabilities. Cells in living organisms may be recruited to construct synthetic materials structures if treated anatomically defined compartments for specific chemistry, harnessing biology complex structures. By integrating engineered-enzyme targeting polymer we genetically instructed neurons guide chemical synthesis electrically (conductive insulating)...
Tissue-wide electrophysiology with single-cell and millisecond spatiotemporal resolution is critical for heart brain studies. Issues arise, however, from the invasive, localized implantation of electronics that destroys well-connected cellular networks within matured organs. Here, we report creation cyborg organoids: three-dimensional (3D) assembly soft, stretchable mesh nanoelectronics across entire organoid by cell-cell attraction forces 2D-to-3D tissue reconfiguration during...
Abstract Intrinsically and fully stretchable active-matrix-driven displays are an important element to skin electronics that can be applied many emerging fields, such as wearable electronics, consumer biomedical devices. Here, we show for the first time a organic light-emitting electrochemical cell array. Briefly, it is comprised of array driven by solution-processed, vertically integrated thin-film transistor active-matrix, which enabled development chemically-orthogonal intrinsically...
Significance Electrophysiological mapping of chronic atrial fibrillation (AF) at high throughput and resolution is critical for understanding its underlying mechanism guiding definitive treatment such as cardiac ablation, but current electrophysiological tools are limited by either low spatial or electromechanical uncoupling the beating heart. We herein introduce a microfabricated high-density, fully elastic electrode (termed elastrode) array complex signal recording in vivo. demonstrated...