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[1]
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Silk Fibroin as an Efficient Biomaterial for Drug Delivery, Gene Therapy, and Wound Healing
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International Journal of …,
2022 |
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[2]
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Poli (3-hidroksi bütirat)/Poli (bütilen adipat-ko-tereftalat)/İpek-Bazlı Tendon Doku İskeleleri: Karakterizasyon ve Tenojenik Aktivite
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2022 |
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[3]
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Electrospinning of silk fibroin-based nanofibers and their applications in tissue engineering
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2021 |
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[4]
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3D bioprinted silk fibroin hydrogels for tissue engineering
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Nature …,
2021 |
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[5]
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Degradable allyl Antheraea pernyi silk fibroin thermoresponsive hydrogels to support cell adhesion and growth
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RSC advances,
2021 |
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[6]
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ساخت ساخت نانو الیاف فیبروئین ابریشم-کیتوزان به عنوان داربست برای مهندسی بافت غضروف مفصلی برای مهندسی بافت غضروف مفصلی
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2020 |
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[7]
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Change of Silk Fibroin Molecular Mass During Dissolution in Ionic Liquids
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2020 |
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[8]
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Strategies for Tuning the Biodegradation of Silk Fibroin-Based Materials for Tissue Engineering Applications
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2020 |
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[9]
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High Molecular Weight Silk Fibroin Prepared by Papain Degumming
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2020 |
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[10]
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Effect of Degumming Methods on the Degradation Behavior of Silk Fibroin Biomaterials
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2019 |
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[11]
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Aqueous Solution of a Basic Ionic Liquid: A Perspective Solvent for Extraction and Regeneration of Silk Powder from Bombyx mori Silk Cocoons
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2019 |
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[12]
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Degradation Behavior of Silk Fibroin Biomaterials-A Review.
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2019 |
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[13]
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Effect of different cocoon stifling methods on the properties of silk fibroin biomaterials
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2019 |
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[14]
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* Department of Biotechnology, Amol University of Special Modern Technologies, Amol, Iran,† Faculty of Medicinal Plants, Amol University of Special Modern …
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2019 |
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[15]
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Silk Fibroin as a Functional Biomaterial for Drug and Gene Delivery
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2019 |
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[16]
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The potential of silk fibroin as a polymer composite reinforcement for bone implant materials
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2018 |
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[17]
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Ionic Liquids for the Synthesis and Design of Hybrid Biomaterials and Interfaces
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Hybrid Organic‐Inorganic Interfaces: Towards Advanced Functional Materials,
2018 |
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[18]
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Tuning the structure and performance of silk biomaterials by combining mulberry and non-mulberry silk fibroin
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Polymer Degradation and Stability,
2018 |
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[19]
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A bird's eye view of nanoparticles prepared by electrospraying: advancements in drug delivery field
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Journal of Controlled Release,
2018 |
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[20]
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Application of Food-Grade Proteolytic Enzyme for the Hydrolysis of Regenerated Silk Fibroin from Bombyx mori
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Journal of Chemistry,
2018 |
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[21]
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Silk fibroin based drug delivery applications: promises and challenges
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2018 |
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[22]
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丝素蛋白/姜黄素药膜的体外降解性能研究
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2018 |
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[23]
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Matrix Mediated Fibroblast Cell Stimulation to Regenerate Collagen for Connective Tissue Repair
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2018 |
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[24]
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Electrospun Silk Nanofibre Mats and Their Potential as Tissue Scaffolds
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2018 |
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[25]
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Natural biodegradable medical polymers: silk
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Science and Principles of Biodegradable and Bioresorbable Medical Polymers,
2017 |
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[26]
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Drug release from core-shell PVA/silk fibroin nanoparticles fabricated by one-step electrospraying
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Scientific Reports,
2017 |
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[27]
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Conformational transitions of thai silk fibroin secondary structures
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2016 |
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[28]
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Size of silk fibroin β-sheet domains affected by Ca 2+
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Journal of Materials Chemistry B,
2016 |
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[29]
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Silk fibroin biomaterials for use in ocular surface repair applications
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ProQuest Dissertations Publishing,
2015 |
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[30]
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Carbonization of a stable β-sheet-rich silk protein into a pseudographitic pyroprotein
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Nature communications,
2015 |
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[31]
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Processing of silk biomaterials
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Advances in Silk Science and Technology,
2015 |
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[32]
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Silk fibroin-based nanoparticles for drug delivery
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International Journal of Molecular Sciences,
2015 |
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[33]
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Comparison of the in vitro and in vivo degradations of silk fibroin scaffolds from mulberry and nonmulberry silkworms
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Biomedical Materials,
2015 |
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[34]
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Carbonization of a stable [beta]-sheet-rich silk protein into a pseudographitic pyroprotein
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Nature communications,
2015 |
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[35]
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On the Routines of Wild‐Type Silk Fibroin Processing Toward Silk‐Inspired Materials: A Review
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Macromolecular Materials and Engineering,
2015 |
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[36]
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1Cornell University, Ithaca, NY, USA; 2Silk Technologies, Ltd, Maple Grove, MN, USA
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Advances in Silk Science and Technology,
2015 |
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[37]
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Regulating the degradation rate of silk fibroin films through changing the genipin crosslinking degree
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Polymer Degradation and Stability,
2014 |
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[38]
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Silk fibroin nanoparticles prepared by electrospray as controlled release carriers of cisplatin
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NULL
2014 |
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|
[39]
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The Cytocompatibility of Silk Fibroin/Poly (ε-caprolactone) Electrospun Fibers.
|
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W Yang, Z Xia, C Ma, X Li, M Li - Material Sciences,
2013 |
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|
|
|
[40]
|
丝素/明胶三维多孔支架的构建及其结构和性能表征
|
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功能材料,
2013 |
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[41]
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丝素/聚己内酯静电纺纤维的细胞相容性 The Cytocompatibility of Silk Fibroin/Poly (ε-caprolactone) Electrospun Fibers
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Material Sciences,
2013 |
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[42]
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The Cytocompatibility of Silk Fibroin/Poly (ε-caprolactone) Electrospun Fibers
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2013 |
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[43]
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丝素/聚己内酯静电纺纤维的细胞相容性
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2013 |
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[44]
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Preparation and characterization of three dimensional porous silk fibroin/gelatin composite scaffolds
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2013 |
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