关键词云

成果统计

合作作者[TOP 5]

  • Zhou, Zhitao

    合作成果数:39

  • Wei, Xiaoling

    合作成果数:21

  • Liu, Keyin

    合作成果数:19

  • Sun, Liuyang

    合作成果数:19

  • Mao, Ying

    合作成果数:15

访问统计


  总访问量
 14009

  访问来源
    内部: 15
    外部: 13994
    国内: 7405
    国外: 6604

  年访问量
 2026

  访问来源
    内部: 1
    外部: 2025
    国内: 1944
    国外: 83

  月访问量
 287

  访问来源
    内部: 0
    外部: 287
    国内: 284
    国外: 3

访问量

访问量

1. A star-nose-like tactile-olfactory bionic sensing array for robust.. [1500]
2. Silk-Enabled Conformal Multifunctional Bioelectronics for Investig.. [1281]
3. A silk-based self-adaptive flexible opto-electro neural probe [968]
4. Multicolor T-Ray Imaging Using Multispectral Metamaterials [799]
5. Protein Bricks: 2D and 3D Bio-Nanostructures with Shape and Functi.. [765]
6. Self-Powered Multifunctional Transient Bioelectronics [765]
7. "Print-to-pattern": Silk-Based Water Lithography [747]
8. A Silk Cranial Fixation System for Neurosurgery [717]
9. Skin-Friendly Electronics for Acquiring Human Physiological Signat.. [707]
10. "Genetically Engineered" Biofunctional Triboelectric Nanogenerator.. [700]
11. 3D Silk-Based Bioelectronic Scaffolds for Osteochondral Regenerati.. [698]
12. Programmable Vanishing Multifunctional Optics [691]
13. Nanoscale probing of electron-regulated structural transitions in .. [690]
14. The Use of Functionalized Silk Fibroin Films as a Platform for Opt.. [658]
15. Precise Protein Photolithography (P-3): High Performance Biopatter.. [654]
16. A Bioinspired Wireless Epidermal Photoreceptor for Artificial Skin.. [633]
17. Biomimicking Antibacterial Opto-Electro Sensing Sutures Made of Re.. [572]
18. Through-polymer, via technology-enabled, flexible, lightweight, an.. [570]
19. Biomimic Antibacterial Sensing Silk Bio-Patch [565]
20. Transient Epidermal Electronic and Optoelectronic Devices for Mult.. [562]
21. "Self-Matched" Tribo/Piezoelectric Nanogenerators Using Vapor-Indu.. [553]
22. Photoinduced Tunable and Reconfigurable Electronic and Photonic De.. [543]
23. Flexible Microelectrode Arrays with In-Plane Shielding for High Qu.. [534]
24. All-Aqueous-Processed Injectable In Situ Forming Macroporous Silk .. [525]
25. Flexible Tactile Sensing Array for Robust Object Recognition [525]
26. Transient Epidermal Electronics for Learning the Physiological Sig.. [523]
27. Implantable, Degradable, Therapeutic Terahertz Metamaterial Device.. [522]
28. Nanomanufacturing of biopolymers using electron and ion beams [520]
29. In Situ Regulation of Macrophage Polarization to Enhance Osseointe.. [515]
30. A rewritable optical storage medium of silk proteins using near-fi.. [509]
31. Biofunctional and Self-Contractable Silk-Based Sensing Threads [507]
32. Body-Integrated, Enzyme-Triggered Degradable, Silk-Based Mechanica.. [501]
33. Robotic Manipulation under Harsh Conditions Using Self-Healing Sil.. [488]
34. Silk-Drive: Protein-Based Hard Drive using Near-Field Nano-Optics [486]
35. PHARMACEUTICAL OPTO-ELECTRO SENSING SUTURE MADE OF REGENERATED SIL.. [483]
36. Tactile-Olfactory Intelligent Sensing Arrays for Objects Recogniti.. [469]
37. Ultraflexible PEDOT:PSS/IrOx-Modified Electrodes: Applications in .. [462]
38. SELF-HEALABLE SOFT IONOTRONIC SKIN FOR GESTURE RECOGNITION [460]
39. Visualized Drug Release Silk Patch Using Thermal Nanoimprinting of.. [453]
40. 3D electron-beam writing at sub-15 nm resolution using spider silk.. [444]
41. Assembly and Parallel Implantation of a Penetrating Flexible Probe.. [441]
42. Recent Progress in Bio-Integrated Intelligent Sensing System [439]
43. Silk Microneedle Patch Capable of On-Demand Multidrug Delivery to .. [432]
44. Accessing Analytes Within On-Skin Fluids with Wireless Epidermal O.. [431]
45. A SILK-BASED MICRONEEDLE PATCH FOR CONTROLLED MULTI-DRUG DELIVERY .. [429]
46. A SILK-BASED OPTO-ELECTRONIC INTEGRATED NEURAL PROBE FOR ANIMAL MO.. [415]
47. Long-term flexible penetrating neural interfaces: materials, struc.. [405]
48. A Hierarchically Encoded Data Storage Device with Controlled Trans.. [403]
49. A Low Noise Microelectrode Array for Specific Cell Activity Modula.. [391]
50. Harmonizing Thickness and Permeability in Bone Tissue Engineering:.. [373]
51. Electronic Nose Based on the Integration of MEMS Multi-Sensor and .. [364]
52. Silk Materials Light Up the Green Society [359]
53. Ultra-Flexible Multichannel Neural Microelectrodes Modified by PED.. [351]
54. The Integrated RGO/PEDOT:PSS-Modified Ultraflexible Microelectrode.. [335]
55. Three-Dimensional Flexible Neural Opto-Electronic Array with Silk-.. [333]
56. Water-Responsive Self-Contractive Silk-Based Skin Anti-Aging Tensi.. [317]
57. A Brain-to-Brain Interface with a Flexible Neural Probe for Mouse .. [290]
58. Advanced nerve regeneration enabled by neural conformal electronic.. [288]
59. A Wireless Bi-Directional Brain-Computer Interface Supporting Both.. [287]
60. Tea Wing Bug Inspired Flexible Deep Brain Probe Minimally Invasive.. [284]
61. A multi-functional intracranial silk-based electronic interface wi.. [274]
62. A BIOINSPIRED WIRELESS EPIDERMAL PHOTORECEPTOR FOR SMART UV PROTEC.. [272]
63. Silk fibroin-based bioelectronic devices for high-sensitivity, sta.. [270]
64. Spatiotemporal Regulation of Injectable Heterogeneous Silk Gel Sca.. [263]
65. Tissue/Organ Adaptable Bioelectronic Silk-Based Implants [257]
66. Direct Optical Patterning of Metal-Organic Frameworks via Photoaci.. [247]
67. High-Density Ultra-Flexible Neural Probe for Monitoring Electrophy.. [210]
68. Ultraflexible Neural Electrodes Enabled Synchronized Long-Term Dop.. [206]
69. A Brain-To-Brain Interface with a Flexible Neural Probe for Mouse .. [188]
70. A Mems-Based Flexible Bidirectional Multiregion Neural Interface f.. [44]
71. Geometrically Reconfigurable Silk-Based Electronic Implants [42]
72. A Retina-Electrode Interface for Light Sensing and Image Recogniti.. [39]
73. A Silk-Based Minimally Invasive Stent-Electrode System for Vasospa.. [39]
74. A Mems-Based Miniaturized Wireless Fully-Implantable Brain-Compute.. [37]
75. Silk-Based Self-Unfolding Electrode Array for Minimally-invasive L.. [35]
76. A hybrid bioelectronic retina-probe interface for object recogniti.. [27]
77. Self-Rolling High Conformal Flexible Electrode for Peripheral Neur.. [15]

下载量

1. A star-nose-like tactile-olfactory bionic sensing array for robust.. [412]
2. Silk-Enabled Conformal Multifunctional Bioelectronics for Investig.. [352]
3. A silk-based self-adaptive flexible opto-electro neural probe [309]
4. Through-polymer, via technology-enabled, flexible, lightweight, an.. [94]
5. Ultraflexible PEDOT:PSS/IrOx-Modified Electrodes: Applications in .. [49]
6. Skin-Friendly Electronics for Acquiring Human Physiological Signat.. [19]
7. Biomimicking Antibacterial Opto-Electro Sensing Sutures Made of Re.. [16]
8. Transient Epidermal Electronic and Optoelectronic Devices for Mult.. [7]
9. A rewritable optical storage medium of silk proteins using near-fi.. [6]
10. 3D Silk-Based Bioelectronic Scaffolds for Osteochondral Regenerati.. [4]
11. Advanced nerve regeneration enabled by neural conformal electronic.. [3]
12. Ultraflexible Neural Electrodes Enabled Synchronized Long-Term Dop.. [3]
13. Multicolor T-Ray Imaging Using Multispectral Metamaterials [2]
14. Tissue/Organ Adaptable Bioelectronic Silk-Based Implants [2]
15. Silk fibroin-based bioelectronic devices for high-sensitivity, sta.. [2]
16. A Wireless Bi-Directional Brain-Computer Interface Supporting Both.. [2]
17. Self-Powered Multifunctional Transient Bioelectronics [1]
18. "Print-to-pattern": Silk-Based Water Lithography [1]
19. A Brain-to-Brain Interface with a Flexible Neural Probe for Mouse .. [1]
20. Direct Optical Patterning of Metal-Organic Frameworks via Photoaci.. [1]
21. A multi-functional intracranial silk-based electronic interface wi.. [1]
22. A Mems-Based Flexible Bidirectional Multiregion Neural Interface f.. [1]
23. Geometrically Reconfigurable Silk-Based Electronic Implants [1]
24. A Silk-Based Minimally Invasive Stent-Electrode System for Vasospa.. [1]
25. A hybrid bioelectronic retina-probe interface for object recogniti.. [1]
26. Self-Rolling High Conformal Flexible Electrode for Peripheral Neur.. [1]