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]
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17.
Biomimicking Antibacterial Opto-Electro Sensing Sutures Made of Re..
[572]
|
18.
Through-polymer, via technology-enabled, flexible, lightweight, an..
[570]
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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]
|