| Nome |
# |
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An electrohydrodynamic printer for alginate hydrogels containing living cells., file e3835193-0abf-72ef-e053-3705fe0ad821
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301
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Dental Implants with Anti-Biofilm Properties: A Pilot Study for Developing a New Sericin-Based Coating, file e3835195-e4d5-72ef-e053-3705fe0ad821
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207
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Spider (Linothele megatheloides) and silkworm (Bombyx mori) silks: Comparative physical and biological evaluation, file e3835195-be89-72ef-e053-3705fe0ad821
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205
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Inhibition of Candida albicans biofilm by lipopeptide AC7 coated medical-grade silicone in combination with farnesol, file e3835195-0438-72ef-e053-3705fe0ad821
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191
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From honeycomb- to microsphere-patterned surfaces of poly(lactic acid) and a starch-poly(lactic acid) blend via the breath figure method, file e3835193-a8cb-72ef-e053-3705fe0ad821
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181
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Effect of Cryopreservation on Cell-Laden Hydrogels: Comparison of Different Cryoprotectants, file e3835194-0231-72ef-e053-3705fe0ad821
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178
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Preparation and Statistical Characterization of Tunable Porous Sponge Scaffolds using UV Cross-linking of Methacrylate-Modified Silk Fibroin, file e3835198-2d04-72ef-e053-3705fe0ad821
|
149
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Medical-Grade Silicone Coated with Rhamnolipid R89 Is Effective against Staphylococcus spp. Biofilms, file e3835195-ecbc-72ef-e053-3705fe0ad821
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142
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Molecularly Imprinted Silk Fibroin Nanoparticles, file e3835199-c31b-72ef-e053-3705fe0ad821
|
119
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Hydrophobic Coatings by Thiol-Ene Click Functionalization of Silsesquioxanes with Tunable Architecture, file e3835193-d8b1-72ef-e053-3705fe0ad821
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112
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A Thermal‐Reflow‐Based Low‐Temperature, High‐Pressure Sintering of Lyophilized Silk Fibroin for the Fast Fabrication of Biosubstrates, file e3835198-01c9-72ef-e053-3705fe0ad821
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107
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Processing and characterization of diatom nanoparticles and microparticles as potential source of silicon for bone tissue engineering, file e3835198-306c-72ef-e053-3705fe0ad821
|
100
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A comparative study of the refractive index of silk protein thin films towards biomaterial based optical devices, file e3835198-2c3e-72ef-e053-3705fe0ad821
|
97
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Spider (Linothele megatheloides) and silkworm (Bombyx mori) silks: Comparative physical and biological evaluation, file e3835196-1eac-72ef-e053-3705fe0ad821
|
93
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Plasma‐Assisted Deposition of Silk Fibroin on Different Surfaces, file e3835198-84fd-72ef-e053-3705fe0ad821
|
82
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Silk fibroin molecularly imprinted nanoparticles as biocompatible molecular nanotraps: Molecular recognition ties the knot with biomaterials. The bioMIP's labeling and degradation, file 6c481730-09d2-4911-9c68-adee57a1d538
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81
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Rhamnolipid coating reduces microbial biofilm formation on titanium implants: an in vitro study, file e3835197-fd69-72ef-e053-3705fe0ad821
|
77
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Atmospheric Plasma-Assisted Deposition and Patterning of Natural Polymers, file e3835199-9f92-72ef-e053-3705fe0ad821
|
73
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Silk fibroin porous scaffolds by N2O foaming, file e3835198-2c48-72ef-e053-3705fe0ad821
|
64
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Fabrication of Nanoscale Patternable Films of Silk Fibroin Using Benign Solvents, file e3835199-9829-72ef-e053-3705fe0ad821
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57
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Surface functionalization strategies to inhibit biofilm formation on silicone materials for implantable devices, file e3835193-dcba-72ef-e053-3705fe0ad821
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42
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A genipin crosslinked silk fibroin monolith by compression molding with recovering mechanical properties in physiological conditions, file e3835199-13db-72ef-e053-3705fe0ad821
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42
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Multimodal gold nanostars as SERS tags for optically-driven doxorubicin release study in cancer cells, file e3835199-6ae9-72ef-e053-3705fe0ad821
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40
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Modeling a Dynamic Printability Window on Polysaccharide Blend Inks for Extrusion Bioprinting, file 3394cd0f-8a27-48cf-abdb-85dfef75467b
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38
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Methacrylated Silk Fibroin Additive Manufacturing of Shape Memory Constructs with Possible Application in Bone Regeneration, file 5c2bebdd-7c6e-44d8-ae6e-91bfa04132d6
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38
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On the effect of the node and building orientation on the fatigue behavior of L-PBF Ti6Al4V lattice structure sub-unital elements, file e3835198-c219-72ef-e053-3705fe0ad821
|
33
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BioMIPs: molecularly imprinted silk fibroin nanoparticles to recognize the iron regulating hormone hepcidin, file e3835199-7c6f-72ef-e053-3705fe0ad821
|
33
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Hybrid Ti6Al4V/Silk Fibroin Composite for Load-Bearing Implants: A Hierarchical Multifunctional Cellular Scaffold, file 0f749257-0124-4111-abf4-32b61a358d4b
|
28
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Cellulose Nanocrystal Composites with Enhanced Mechanical Properties for Robust Transparent Thin Films, file cf51ae0b-5598-4b95-ad3a-512df9514a28
|
26
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Biosurfactant-based coatings inhibit fungal and bacterial biofilm on medical-grade silicone, file e3835193-e418-72ef-e053-3705fe0ad821
|
25
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Novel biosurfactants are effective in inhibiting fungal and bacterial biofilm formation on medical grade silicone in vitro, file e3835193-dcbe-72ef-e053-3705fe0ad821
|
24
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On the Effect of Soft Molecularly Imprinted Nanoparticles Receptors Combined to Nanoplasmonic Probes for Biomedical Applications, file 69fc408f-2bd7-437a-abf6-eeba0cd23764
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17
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Medical-grade silicone coated by AC7 biosurfactant inhibits fungal biofilm formation preserving biocompatibility, file e3835193-e41b-72ef-e053-3705fe0ad821
|
17
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Influence of mean stress and building orientation on the fatigue properties of sub-unital thin-strut miniaturized Ti6Al4V specimens additively manufactured via Laser-Powder Bed Fusion, file 40c4df4e-7734-4b91-a360-72ec6738a073
|
16
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Non-Specific Responsive Nanogels and Plasmonics to Design MathMaterial Sensing Interfaces: The Case of a Solvent Sensor, file 57bdd511-455e-46c7-af69-cdc01852078d
|
15
|
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Imaging the Morphological Structure of Silk Fibroin Constructs through Fluorescence Energy Transfer and Confocal Microscopy, file d8ca901e-977f-4623-bf85-a1298b83f152
|
12
|
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A Thermal‐Reflow‐Based Low‐Temperature, High‐Pressure Sintering of Lyophilized Silk Fibroin for the Fast Fabrication of Biosubstrates, file e3835195-7f0e-72ef-e053-3705fe0ad821
|
9
|
|
Processing and characterization of diatom nanoparticles and microparticles as potential source of silicon for bone tissue engineering, file e3835193-0a52-72ef-e053-3705fe0ad821
|
7
|
|
Silk fibroin porous scaffolds by N2O foaming, file e3835194-1d16-72ef-e053-3705fe0ad821
|
6
|
|
An electrohydrodynamic printer for alginate hydrogels containing living cells., file e3835198-3073-72ef-e053-3705fe0ad821
|
6
|
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Imaging the Morphological Structure of Silk Fibroin Constructs Through Fluorescence Energy Transfer and Confocal Imaging, file c0fd9cb0-4ec8-44df-889e-7ee107bd9d52
|
5
|
|
Polymeric Hydrogels for Intervertebral Disc Replacement/Integration: Playing with the Chemical Composition for Tuning Shear Behavior and Hydrophilicity, file dd3996d9-b741-4342-b925-fded1f97d162
|
5
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Silk Hydrogels of Tunable Structure and Viscoelastic Properties using Different Chronological Orders of Genipin and Physical Crosslinking, file e3835192-22d5-72ef-e053-3705fe0ad821
|
5
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Ceramic Breath Figures Films, file e3835193-e7b1-72ef-e053-3705fe0ad821
|
5
|
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Sodium oleate induced rapid gelation of silk fibroin, file e3835194-79d0-72ef-e053-3705fe0ad821
|
5
|
|
Fabrication of Nanoscale Patternable Films of Silk Fibroin Using Benign Solvents, file e3835195-4a3f-72ef-e053-3705fe0ad821
|
5
|
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Blood compatibility of polymers derived from natural materials, file e3835193-4779-72ef-e053-3705fe0ad821
|
4
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Design and optimization of self-nanoemulsifying formulations for lipophilic drugs, file e3835193-4ceb-72ef-e053-3705fe0ad821
|
4
|
|
A novel and selective silk fibroin fragmentation method, file 0ef07d61-75ad-440c-afa1-cb2e171ddfc9
|
3
|
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Biohybrid nanofiber constructs with anisotropic biomechanical properties, file e3835192-5cd9-72ef-e053-3705fe0ad821
|
3
|
|
Development of pH-sensitive self-nanoemulsifying drug delivery systems for acid-labile lipophilic drugs, file e3835193-0db5-72ef-e053-3705fe0ad821
|
3
|
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null, file e3835194-f508-72ef-e053-3705fe0ad821
|
3
|
|
Theranostic gold-magnetite hybrid nanoparticles for MRI-guided radiosensitization, file e3835194-fd24-72ef-e053-3705fe0ad821
|
3
|
|
Polymeric Hydrogels for Intervertebral Disc Replacement/Integration: Playing with the Chemical Composition for Tuning Shear Behavior and Hydrophilicity, file 259790b6-9d76-45f7-87ad-05c15719741c
|
2
|
|
Genipin-Modified Silk-Fibroin Nanometric Nets, file e3835191-cecd-72ef-e053-3705fe0ad821
|
2
|
|
Functional role of scaffold geometries as a template for physiological ECM formation: evaluation of collagen 3D assembly, file e3835192-54d5-72ef-e053-3705fe0ad821
|
2
|
|
Assessing the Impact of Electrohydrodynamic Jetting on Encapsulated Cell Viability, Proliferation, and Ability to Self-Assemble in Three-Dimensional Structures, file e3835193-0abe-72ef-e053-3705fe0ad821
|
2
|
|
Comparative Methods for the Evaluation of Protein Adsorption, file e3835193-122a-72ef-e053-3705fe0ad821
|
2
|
|
Development of Theranostic Au-Fe3O4 Nanoparticles for Advanced Radiotherapy, file e3835193-3ed6-72ef-e053-3705fe0ad821
|
2
|
|
Soluble collagen dissolution and assembling in pressurized carbon dioxide water solutions, file e3835194-12ab-72ef-e053-3705fe0ad821
|
2
|
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Amphiphilic copolymers in biomedical applications: Synthesis routes and property control, file e3835198-13a8-72ef-e053-3705fe0ad821
|
2
|
|
An electrohydrodynamic printer for alginate hydrogels containing living cells., file e3835198-33ac-72ef-e053-3705fe0ad821
|
2
|
|
Additively manufactured Ti–6Al–4V thin struts via laser powder bed fusion: Effect of building orientation on geometrical accuracy and mechanical properties, file e3835198-33ad-72ef-e053-3705fe0ad821
|
2
|
|
Modeling the Osteogenic Potential of Decellularized Human Bone Particles by Tuning their Size Distribution Through a Sonic Microfragmentation Approach, file 47caba26-c501-4466-bf5a-1cb21433acb7
|
1
|
|
Spoon-shaped polymer waveguides to excite multiple plasmonic phenomena: A multisensor based on antibody and molecularly imprinted nanoparticles to detect albumin concentrations over eight orders of magnitude, file 6e90f988-641d-486a-9a47-b18e56f15ad4
|
1
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|
Changes in the properties of pure cotton surgical gowns and drapes with clinical use and reprocessing, file 9862cd50-32fc-48c6-9207-a8136e548c3b
|
1
|
|
The Solid Surface Free Energy Calculation. I) In Defense of the Multicomponent Approach, file e3835191-c9b4-72ef-e053-3705fe0ad821
|
1
|
|
Surface Properties of Silk Fibroin Films and Their Interaction with Fibroblasts, file e3835191-cbd7-72ef-e053-3705fe0ad821
|
1
|
|
Effects on Interfacial Properties and Cell Adhesion of Surface Modification by Pectic Hairy Regions, file e3835191-cd20-72ef-e053-3705fe0ad821
|
1
|
|
The Application of the Contact Angle in Monument Protection: New Materials and Methods, file e3835191-cd43-72ef-e053-3705fe0ad821
|
1
|
|
Silk Fibroin Processing and Thrombogenic Responses, file e3835191-ced9-72ef-e053-3705fe0ad821
|
1
|
|
Oleic acid surfactant in polycaprolactone/hydroxyapatite-composites for bone tissue engineering, file e3835193-0a92-72ef-e053-3705fe0ad821
|
1
|
|
A New Cells-Compatible Microfluidic Device for Single Channel Recordings, file e3835193-11b7-72ef-e053-3705fe0ad821
|
1
|
|
null, file e3835193-e370-72ef-e053-3705fe0ad821
|
1
|
|
Breath figures decorated silica-based ceramic surfaces with tunable geometry from UV cross-linkable polysiloxane precursor, file e3835198-3eef-72ef-e053-3705fe0ad821
|
1
|
|
Preparation and Statistical Characterization of Tunable Porous Sponge Scaffolds using UV Cross-linking of Methacrylate-Modified Silk Fibroin, file e3835199-8eca-72ef-e053-3705fe0ad821
|
1
|
|
Photo-enzymatic dityrosine crosslinking for bioprinting, file e3835199-a5d1-72ef-e053-3705fe0ad821
|
1
|
|
A comparative study of the refractive index of silk protein thin films towards biomaterial based optical devices, file e3835199-e58d-72ef-e053-3705fe0ad821
|
1
|
| Totale |
3.178 |