1.
Animal Silk-Derived Amorphous Carbon Fibers for Electricity Genera..
[1691]
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2.
Interplay of structure and mechanics in silk/carbon nanocomposites
[1230]
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3.
Polyvinyl Alcohol/Silk Fibroin/Borax Hydrogel lonotronics: A Highl..
[953]
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4.
Flame-Retardant and Fire-Sensing Packaging Papers Enabled by Diffu..
[860]
|
5.
Formation, Structure, and Mechanical Performance of Silk Nanofibri..
[858]
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6.
Violin String Inspired Core-Sheath Silk/Steel Yarns for Wearable T..
[816]
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7.
Humanoid Intelligent Display Platform for Audiovisual Interaction ..
[802]
|
8.
Bioinspired and biomimetic silk spinning
[760]
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9.
Understanding Secondary Structures of Silk Materials via Micro- an..
[739]
|
10.
一种电控变色蚕丝复合纱线及其制备方法和用途及由其形成的智能可穿戴动..
[689]
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11.
Biomimetic Design for Bio-Matrix Interfaces and Regenerative Organ..
[676]
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12.
Ultrastable and High-Performance Silk Energy Harvesting Textiles
[636]
|
13.
Birefringent Silk Fibroin Hydrogel Constructed via Binary Solvent-..
[622]
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14.
Synergetic integration of computer-aided design, experimental synt..
[616]
|
15.
Self-Adhesive and Contractile Silk Fibroin/Graphene Nano-Ionotroni..
[615]
|
16.
Quantitative Evaluation of Pseudo Strain Signals Caused by Yarn St..
[599]
|
17.
Influence of hydrated protons on temperature and humidity responsi..
[593]
|
18.
Electroassisted Core-Spun Triboelectric Nanogenerator Fabrics for ..
[589]
|
19.
A Bioinspired Interfacial Design to Toughen Carbon Nanotube Fibers
[585]
|
20.
Water Collecting Carbon Nanotube Yarn with Biomimetic Composition ..
[581]
|
21.
Light, Strong, and Ductile Architectures Achieved by Silk Fiber "W..
[573]
|
22.
Ultrastrong and Highly Sensitive Fiber Microactuators Constructed ..
[572]
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23.
Thermochromic Silks for Temperature Management and Dynamic Textile..
[569]
|
24.
IntelliSense silk fibroin ionotronic batteries for wildfire detect..
[556]
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25.
Strong, ductile and lightweight bionanocomposites constructed by b..
[554]
|
26.
Biological Material Interfaces as Inspiration for Mechanical and O..
[534]
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27.
Flame-Retardant and Sustainable Silk Ionotronic Skin for Fire Alar..
[534]
|
28.
Silk Fibroin Nacre
[522]
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29.
Hierarchically non-uniform structures determine the hydro-actuated..
[520]
|
30.
Natural Silk Spinning-Inspired Meso-Assembly-Processing Engineerin..
[515]
|
31.
Acquiring structural and mechanical information of a fibrous netwo..
[512]
|
32.
Structural information of biopolymer nanofibrils by infrared nanos..
[509]
|
33.
Understanding the Continuous Dynamic Mechanical Behavior of Animal..
[499]
|
34.
Electro-Blown Spun Silk/Graphene Nanoionotronic Skin for Multifunc..
[492]
|
35.
Direct functionalization of natural silks through continuous force..
[488]
|
36.
Mechanically and electrically biocompatible hydrogel ionotronic fi..
[481]
|
37.
一种离子导体材料的用途、火灾感应装置、报警方法、设备和系统
[480]
|
38.
Transpiration-Driven Electrokinetic Power Generator for Early Warn..
[479]
|
39.
Research progress of fiber-shaped electrochemical energy storage d..
[477]
|
40.
Mechanism of Mechanical Training-Induced Self-Reinforced Viscoelas..
[476]
|
41.
Functionalization of structural materials through electro-blown sp..
[476]
|
42.
一种离子导体材料及其制备方法和用途
[469]
|
43.
Analysis of the Contribution of Conformation and Fibrils on Tensil..
[468]
|
44.
导电碳材料/蚕丝复合材料及其制备方法和用途
[460]
|
45.
IntelliSense Bio-Ionotronics Battery for Early Warning of Geologic..
[454]
|
46.
一种连续功能化纤维、装置及其制备方法和用途
[453]
|
47.
Predicting the conformations of the silk protein through deep lear..
[449]
|
48.
Design and Fabrication of Silk Templated Electronic Yarns and Appl..
[444]
|
49.
The Fractal Network Structure of Silk Fibroin Molecules and Its Ef..
[438]
|
50.
Bioinspired Energy Storage and Harvesting Devices
[433]
|
51.
Moderate conformational transition promotes the formation of a sel..
[425]
|
52.
丝蛋白离子导体膜的制备方法及丝蛋白离子导体膜
[420]
|
53.
Nanofibril Organization in Silk Fiber as Inspiration for Ductile a..
[407]
|
54.
Humanoid Ionotronic Skin for Smart Object Recognition and Sorting
[405]
|
55.
Cytoskeleton-inspired hydrogel ionotronics for tactile perception ..
[403]
|
56.
蚕丝仿生结构的制备方法及蚕丝仿生结构
[403]
|
57.
Understanding the mechanical “shakedown” of hydrogel ionotronic..
[402]
|
58.
CONTINUOUS FUNCTIONAL FIBER, DEVICE, AND METHOD FOR PREPARATION ..
[388]
|
59.
Silk nanofibrils-MOF composite membranes for pollutant removal fro..
[388]
|
60.
三维结构体及蚕丝仿生结构的制备方法及蚕丝仿生结构
[386]
|
61.
丝蛋白凝胶及其制备方法及电池及预警系统
[384]
|
62.
An Artificial Motion and Tactile Receptor Constructed by Hyperelas..
[355]
|
63.
发电器件、检测装置及制备方法及应用
[320]
|
64.
Mechanically Trained Calcium Alginate Ionic Hydrogels for Enhanced..
[320]
|
65.
Dual Physically Crosslinked Silk Fibroin Ionoelastomer with Ultrah..
[317]
|
66.
Biomimetic Silk Architectures Outperform Animal Horns in Strength ..
[312]
|
67.
Sustainable Silk Fibroin Ionic Touch Screens for Flexible Biodegra..
[304]
|
68.
一种地质渗流预警的方法、系统及介质
[302]
|
69.
Self-Reinforcing Ionogel Bioadhesive Interface for Robust Integrat..
[299]
|
70.
Design, Preparation, and Solvent Identification Application of ..
[288]
|
71.
改性过滤膜、其制备方法及其应用
[286]
|
72.
Embedding Living Cells with a Mechanically Reinforced and Function..
[274]
|
73.
基于蒸腾驱动的柞蚕超纤纸电化学传感器的设计、制备及其溶剂在线鉴别应..
[269]
|
74.
Biomimetic Spun Silk Ionotronic Fibers for Intelligent Discriminat..
[262]
|
75.
电致发光基体及其制备方法、发光器件及其发光方法
[260]
|
76.
Mechanical Training-Driven Structural Remodeling: A Rational Route..
[258]
|
77.
Optimizing Biomimetic Three-Dimensional Disordered Fibrous Network..
[245]
|
78.
二维材料及其在柔性传感器件中的应用
[232]
|
79.
电致发光纤维及其制备方法和应用
[219]
|
80.
Silk Fibroin Seed Coatings: Towards Sustainable Seed Protection an..
[218]
|
81.
Sub-zero self-healable and fatigue-resistant conductive ionoelasto..
[216]
|
82.
Mechanically modulable and human–machine interactive luminescent ..
[200]
|
83.
纤维电化学储能器件的研究进展
[189]
|
84.
Optimizing Biomimetic 3D Disordered Fibrous Network Structures for..
[88]
|
85.
Identification and Screening of Trace and Multityped Solvents Usin..
[75]
|
86.
Spider-Web-Like Artificial Network for Smart Capture
[56]
|