Natural Science

Natural Science

ISSN Print: 2150-4091
ISSN Online: 2150-4105
www.scirp.org/journal/ns
E-mail: ns@scirp.org
"The degradation behavior of silk fibroin derived from different ionic liquid solvents"
written by Renchuan You, Ying Zhang, Yu Liu, Guiyang Liu, Mingzhong Li,
published by Natural Science, Vol.5 No.6A, 2013
has been cited by the following article(s):
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[1] Silk Fibroin as an Efficient Biomaterial for Drug Delivery, Gene Therapy, and Wound Healing
International Journal of …, 2022
[2] Poli (3-hidroksi bütirat)/Poli (bütilen adipat-ko-tereftalat)/İpek-Bazlı Tendon Doku İskeleleri: Karakterizasyon ve Tenojenik Aktivite
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[3] Electrospinning of silk fibroin-based nanofibers and their applications in tissue engineering
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[4] 3D bioprinted silk fibroin hydrogels for tissue engineering
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[5] Degradable allyl Antheraea pernyi silk fibroin thermoresponsive hydrogels to support cell adhesion and growth
RSC advances, 2021
[6] ساخت ساخت نانو الیاف فیبروئین ابریشم-کیتوزان به عنوان داربست برای‏ مهندسی بافت غضروف مفصلی برای‏ مهندسی بافت غضروف مفصلی‎
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[7] Change of Silk Fibroin Molecular Mass During Dissolution in Ionic Liquids
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[8] Strategies for Tuning the Biodegradation of Silk Fibroin-Based Materials for Tissue Engineering Applications
2020
[9] High Molecular Weight Silk Fibroin Prepared by Papain Degumming
2020
[10] Effect of Degumming Methods on the Degradation Behavior of Silk Fibroin Biomaterials
2019
[11] 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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[12] Degradation Behavior of Silk Fibroin Biomaterials-A Review.
2019
[13] Effect of different cocoon stifling methods on the properties of silk fibroin biomaterials
2019
[14] * Department of Biotechnology, Amol University of Special Modern Technologies, Amol, Iran,† Faculty of Medicinal Plants, Amol University of Special Modern …
2019
[15] Silk Fibroin as a Functional Biomaterial for Drug and Gene Delivery
2019
[16] The potential of silk fibroin as a polymer composite reinforcement for bone implant materials
2018
[17] Ionic Liquids for the Synthesis and Design of Hybrid Biomaterials and Interfaces
Hybrid Organic‐Inorganic Interfaces: Towards Advanced Functional Materials, 2018
[18] Tuning the structure and performance of silk biomaterials by combining mulberry and non-mulberry silk fibroin
Polymer Degradation and Stability, 2018
[19] A bird's eye view of nanoparticles prepared by electrospraying: advancements in drug delivery field
Journal of Controlled Release, 2018
[20] Application of Food-Grade Proteolytic Enzyme for the Hydrolysis of Regenerated Silk Fibroin from Bombyx mori
Journal of Chemistry, 2018
[21] Silk fibroin based drug delivery applications: promises and challenges
2018
[22] 丝素蛋白/姜黄素药膜的体外降解性能研究
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[23] Matrix Mediated Fibroblast Cell Stimulation to Regenerate Collagen for Connective Tissue Repair
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[24] Electrospun Silk Nanofibre Mats and Their Potential as Tissue Scaffolds
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[25] Natural biodegradable medical polymers: silk
Science and Principles of Biodegradable and Bioresorbable Medical Polymers, 2017
[26] Drug release from core-shell PVA/silk fibroin nanoparticles fabricated by one-step electrospraying
Scientific Reports, 2017
[27] Conformational transitions of thai silk fibroin secondary structures
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[28] Size of silk fibroin β-sheet domains affected by Ca 2+
Journal of Materials Chemistry B, 2016
[29] Silk fibroin biomaterials for use in ocular surface repair applications
ProQuest Dissertations Publishing, 2015
[30] Carbonization of a stable β-sheet-rich silk protein into a pseudographitic pyroprotein
Nature communications, 2015
[31] Processing of silk biomaterials
Advances in Silk Science and Technology, 2015
[32] Silk fibroin-based nanoparticles for drug delivery
International Journal of Molecular Sciences, 2015
[33] Comparison of the in vitro and in vivo degradations of silk fibroin scaffolds from mulberry and nonmulberry silkworms
Biomedical Materials, 2015
[34] Carbonization of a stable [beta]-sheet-rich silk protein into a pseudographitic pyroprotein
Nature communications, 2015
[35] On the Routines of Wild‐Type Silk Fibroin Processing Toward Silk‐Inspired Materials: A Review
Macromolecular Materials and Engineering, 2015
[36] 1Cornell University, Ithaca, NY, USA; 2Silk Technologies, Ltd, Maple Grove, MN, USA
Advances in Silk Science and Technology, 2015
[37] Regulating the degradation rate of silk fibroin films through changing the genipin crosslinking degree
Polymer Degradation and Stability, 2014
[38] Silk fibroin nanoparticles prepared by electrospray as controlled release carriers of cisplatin
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[39] The Cytocompatibility of Silk Fibroin/Poly (ε-caprolactone) Electrospun Fibers.
W Yang, Z Xia, C Ma, X Li, M Li - Material Sciences, 2013
[40] 丝素/明胶三维多孔支架的构建及其结构和性能表征
功能材料, 2013
[41] 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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[42] The Cytocompatibility of Silk Fibroin/Poly (ε-caprolactone) Electrospun Fibers
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[43] 丝素/聚己内酯静电纺纤维的细胞相容性
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[44] Preparation and characterization of three dimensional porous silk fibroin/gelatin composite scaffolds
2013
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