@incollection{, BC0A6B0F439C2508819B375B2163A298 , author={{LuigiBibbo} and {KarimKhan} and {Ayesha KhanTareen} and {University Mediterranea of Reggio Calabria}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}213130 } @incollection{b0, , title={{Untangling spider biology}} , author={{ EPennisi }} , journal={{Science}} 358 6361 , year={2017} } @incollection{b1, , title={{Silk fibers -structure, properties and applications}} , author={{ KMBabu }} , booktitle={{Handbook of Natural Fibres}} , year={2020} , note={Second Edition} } @incollection{b2, , title={{Silk: molecular organization and control of assembly}} , author={{ RValluzzi } and { SWinkler } and { DWilson } and { DLKaplan }} , booktitle={{Philosophical Transactions of the Royal Society of London Series B-Biological Sciences}} , year={1418. 2002} 357 } @book{b3, , title={{Electroactive biopolymer optical and electro-optical devices and method of manufacturing the same}} , author={{ DKaplan } and { FOmenetto } and { BLawrence } and { MCronin-Golomb }} , year={2017} } @incollection{b4, , title={{Flexible Humidity Sensor Based on Silk Fabric for Human Respiration Monitoring}} , author={{ BLi } and { GXiao } and { FLiu } and { YQiao } and { CLi } and { ZLu }} , journal={{Journal of Materials Chemistry C}} 6 16 , year={2018} } @incollection{b5, , title={{Fabrication and Characterization of Silk Fibroin/Curcumin Sustained-Release Film}} , author={{ XZhang } and { ZChen } and { HBao } and { JLiang } and { SXu } and { GCheng } and { YZhu }} , journal={{Materials}} 12 20 , year={2019} } @incollection{b6, , title={{In Vivo Characterizations of the Immune Properties of Sericin: An Ancient Material with Emerging Value in Biomedical Applications}} , author={{ JZhang } and { SYu } and { JYang } and { LWang }} , journal={{Macromolecular Bioscience}} 17 12 , year={2017} } @incollection{b7, , title={{Polylactic acid: synthesis and biomedical applications}} , author={{ MSSinghvi } and { SSZinjarde } and { DVGokhale }} , journal={{Journal of Applied Microbiology}} , year={2019} } @incollection{b8, , title={{Tuning the conformation and mechanical properties of silk fibroin hydrogels}} , author={{ NJohari } and { LMoroni } and { ASamadikuchaksaraei }} , journal={{European Polymer Journal}} 134 , year={2020} } @incollection{b9, , title={{Degradation Behavior of Silk Fibroin Biomaterials -A Review}} , author={{ PHPurnomo } and { DSetyarini } and { Sulistyaningsih }} , journal={{Journal of Engineering Science and Technology Review}} 12 5 , year={2019} } @incollection{b10, , title={{In vivo degradation of three-dimensional silk fibroin scaffolds}} , author={{ YWang } and { DDRudym } and { AWalsh } and { LAbrahamsen } and { H.-JooKim } and { HSKim } and { CKirker-Head } and { DLKaplan }} , journal={{Biomaterials}} 29 , year={2008} } @incollection{b11, , title={{Degradation Behavior of Silk Nanoparticles-Enzyme Responsiveness}} , author={{ BFJohnston } and { FPSeib }} , journal={{ACS Biomaterials Science & Engineering}} 4 3 , year={2018} } @incollection{b12, , title={{Adaptation of degradation rates of silk fibroin scaffolds for tissue engineering}} , author={{ LZhang } and { XLiu } and { GLi } and { PWang } and { YYang }} , journal={{Biomed Mater Res A}} 107 1 , year={2019} } @incollection{b13, , title={{Degradation Mechanism and Control of Silk Fibroin}} , author={{ QLu } and { BZhang } and { MLi } and { BZuo } and { DLKaplan } and { YHuang } and { HZhu }} , journal={{Biomacromolecules}} 12 4 , year={2011} } @incollection{b14, , author={{ YPHu } and { QZhang } and { RYou } and { LWang } and { MLi }} , booktitle={{The Relationship between Secondary Structure and Biodegradation Behavior of Silk Fibroin Scaffolds}} , year={2012. 2012} } @incollection{b15, , title={{Comparative study of degumming of silk varieties by different techniques}} , author={{ SKVyas } and { SRShukla }} , journal={{Journal of The Textile Institute}} 107 2 , year={2016} } @incollection{b16, , title={{}} , author={{ MMontazer } and { THarifi }} , journal={{Nanofinishing of Textile Materials}} , year={2018} , publisher={Elsevier} } @incollection{b17, , title={{Physical properties and dyeability of silk fibers degummed with citric acid}} , author={{ M RMd } and { MKhan } and { YTsukada } and { HGotoh } and { GMorikawa } and { HFreddi } and { Shiozaki }} , journal={{Bioresource Technology}} 101 21 , year={2010} } @incollection{b18, , title={{A study on the enzymatic degumming on silk fabric using Carica papaya skin}} , author={{ KLDevi } and { APriyadarshini }} , journal={{International Journal of Home Science}} 3 1 , year={2017} } @incollection{b19, , title={{Degumming of Silk Fibers by CO 2 Supercritical Fluid}} , author={{ C.-HLo } and { YChao }} , journal={{Journal of Materials Science and Chemical Engineering}} 5 4 , year={2017} } @incollection{b20, , title={{Three-Layered Sericins around the Silk Fibroin Fiber from Bombyx mori Cocoon and their Amino Acid Composition}} , author={{ YJWang } and { YZhang }} , journal={{Advanced Materials Research}} , year={2011} } @incollection{b21, , title={{Silk Degumming Using Microwave Irradiation as an Environmentally Friendly Surface Modification Method}} , author={{ NMMahmoodi } and { FMoghimi } and { MArami } and { FMazaheri }} , journal={{Fibers and Polymers}} 11 2 , year={2010} } @incollection{b22, , title={{A comparative study of ultrasonic degumming of silk sericin using citric acid, sodium carbonate, and papain}} , author={{ WWang } and { YPan } and { KGong } and { QZhou } and { TZhang } and { QLi }} , journal={{Coloration Technology}} 135 3 , year={2019} } @incollection{b23, , title={{Bombyx mori Silk Fibers: An Outstanding Family of Materials}} , author={{ RF PPereira } and { MMSilva } and { ZeaDe } and { VBermudez }} , journal={{Mater. Eng}} , year={2015} , note={Macromol} } @incollection{b24, , title={{Structure and solubility of natural silk fibroin}} , author={{ ESSashina } and { AMBoche } and { NPNovoselov } and { DAKirichenko }} , journal={{Russ. J. Appl. Chem}} 79 , year={2006} } @incollection{b25, , title={{Dissolution behavior of silk fibroin in a low concentration CaCl 2 -methanol solvent: From morphology to nanostructure}} , author={{ TShen } and { TWanga } and { GCheng } and { LHuang } and { LChen } and { DWua }} , journal={{International Journal of Biological Macromolecules}} 113 , year={2018} } @incollection{b26, , title={{Silk: A Promising Biomaterial Opening New Vistas Towards Affordable Healthcare Solutions}} , author={{ ABandyopadhyay } and { SKChowdhury } and { SDey } and { JCMosè } and { BB }} , journal={{J Indian Inst Sci}} 99 , year={2019} } @incollection{b27, , title={{On the Secondary Structure of Silk Fibroin Nanoparticles Obtained Using Ionic Liquids: An Infrared Spectroscopy Study}} , author={{ CGuzmán } and { CMBaronio } and { MGMontalbán } and { GVíllora } and { ABarth 2 }} , journal={{Polymers}} 12 6 2020 } @incollection{b28, , title={{Regulation of Silk Material Structure by Temperature-Controlled Water Vapor Annealing}} , author={{ XHu } and { KShmel } and { LSun } and { EGil } and { SHPark } and { PCebe } and { DLKaplan }} , journal={{Biomacromolecules}} 12 5 , year={2011} } @incollection{b29, , title={{Production of submicron silk particles by milling}} , author={{ MKazemimostaghim } and { RRajkhowa } and { TTsuzuki } and { XWang }} , journal={{Powder Technology}} , year={2013} } @incollection{b30, , title={{Differences in regenerated silk fibroin prepared with different solvent systems: From structures to conformational changes}} , author={{ GCheng } and { XWang } and { STao } and { JXia } and { SXu }} , journal={{J. Applied Polymer Science}} 132 22 , year={2015} } @incollection{b31, , title={{Methanol-Water-Dependent Structural Changes of Regenerated Silk Fibroin Probed Using Terahertz Spectroscopy}} , author={{ XWu } and { XWu } and { BYang } and { MShao } and { GFeng }} , journal={{Appl Spectrosc}} 71 8 , year={2017} } @incollection{b32, , title={{Silk: A Promising Biomaterial Opening New Vistas Towards Affordable Healthcare Solutions}} , author={{ ABandyopadhyay } and { SKChowdhury } and { SDey }} , journal={{J Indian Inst Sci}} 99 , year={2019} } @incollection{b33, , title={{Preparation, characterization and in vitro biological study of silk fiber/methylcellulose composite for bone tissue engineering applications}} , author={{ STandon } and { BKandasubramanian } and { SMIbrahim } and { ; VNarayanan } and { SSumathi }} , journal={{Ind. Eng. Chem. Res}} 59 40 , year={2020. 2019} , note={Polymer Bulletin} } @incollection{b34, , title={{Effect of hydration on silk film material properties}} , author={{ BDLawrence } and { SWharram } and { JAKluge } and { GLeisk } and { FGOmenetto } and { MIRosenblatt } and { DLKaplan }} , journal={{Macromolecular Bioscience}} 10 4 , year={2010} } @incollection{b35, , title={{Advanced Recombinant and Regenerated Silk Materials for Medicine and Tissue Engineering}} , author={{ TKTenchurin } and { RVSharikov } and { SNChvalun }} , journal={{Nanotechnol Russia}} 14 , year={2019} } @book{b36, , title={{}} , author={{ MCLee } and { DKKim } and { OJLee } and { JHKim } and { HWJu }} , editor={J. M. Lee, B. Mi Moon, H. J. Park, D. W. Kim, S. H} } @incollection{b37, , title={{Fabrication of silk fibroin film using centrifugal casting technique for corneal tissue engineering}} , author={{ CHKim } and { Park }} , journal={{J. B. Materials Research}} 104 3 , year={2016} } @incollection{b38, , title={{Highly-transparent multi-layered spincoated silk fibroin film}} , author={{ KWasapinyokul } and { SKaewpirom } and { SChuwongin } and { SBoonsang }} SPIE 10460 , journal={{Optoelectronics and Micro/Nano-Optics}} , year={2017} } @incollection{b39, , title={{Formulation and Characterization of silk fibroin films as a scaffold for adipose-derived stem cells in skin tissue engineering}} , author={{ TChlapanidas } and { MCTosca } and { SFarago } and { SPerteghella } and { MGaluzzi } and { GLucconi } and { BAntonioli } and { FCiancio } and { VRapisardi } and { DVigo } and { MMarazzi } and { MFaustini } and { MLTorre }} , journal={{I. J. Immunopathology and Pharmacology}} 26 1 , year={2013} } @book{b40, , title={{}} , author={{ LWTien } and { ESGil } and { SHPark } and { BBMandal } and { DL }} } @incollection{b41, , title={{Patterned Silk Film Scaffolds for Aligned Lamellar Bone Tissue Engineering}} , author={{ Kaplan }} , journal={{Macromolecular Bioscience}} 12 12 , year={2012} } @incollection{b42, , title={{On the Secondary Structure of Silk Fibroin Nanoparticles Obtained Using Ionic Liquids: An Infrared Spectroscopy Study}} , author={{ GCarissimi } and { CMBaronio } and { MGMontalbán } and { GVíllora } and { ABarth }} , journal={{Polymers}} 12 6 2020 } @book{b43, , title={{Stabilization of vaccines and antibiotics in silk and eliminating the cold chain}} , author={{ JZhang } and { EPritchard } and { XHu } and { TValentin } and { BPanilaitis } and { FGOmenetto } and { DLKaplan }} , year={2012} , publisher={PNAS} 109 } @incollection{b44, , title={{preparation of transient electronic devices with silk fibroin film as a flexible substrate}} , author={{ YChen } and { LDuan } and { YMa } and { QHan } and { XLi } and { JLi } and { AWang } and { SBai } and { JYin }} , journal={{Colloids and Surfaces A: Physicochemical and Engineering Aspects}} 600 , year={2020} } @incollection{b45, , title={{Mechanisms of silk fibroin sol-gel transitions}} , author={{ AMatsumoto } and { JChen } and { ALCollette } and { UJKim } and { GHAltman } and { PCebe } and { DLKaplan }} , journal={{J Phys Chem B}} 110 43 , year={2006} } @incollection{b46, , title={{Tuning the conformation and mechanical properties of silk fibroin hydrogels}} , author={{ NJohari } and { LMoroni } and { ASamadikuchaksaraei }} , journal={{European Polymer Journal}} 134 , year={2020} } @incollection{b47, , title={{Functional silk fibroin hydrogels: preparation, properties and applications}} , author={{ HZheng } and { BZuo }} , journal={{J. Mater. Chem. B}} , year={2021} } @incollection{b48, , title={{Processing Techniques and Applications of Silk Hydrogels in Bioengineering}} , author={{ MFloren } and { CMigliaresi } and { AMotta }} , journal={{Journal of Functional Biomaterials}} 7 3 , year={2016} } @incollection{b49, , title={{In Vivo Evaluation of Engineered Self-Assembling Silk Fibroin Hydrogels after Intracerebral Injection in a Rat Stroke Model}} , author={{ NGorenkova } and { IOsama } and { FPSeib } and { V OHi } and { Carswell }} , journal={{ACS Biomater. Sci. Eng}} 52 2 , year={2019} } @incollection{b50, , title={{Performance of Water-immiscible Silk Fibroin Based Hydrogel as Underwater Biomedical Adhesive}} , author={{ MYuan } and { SYan } and { HLiu }} , journal={{Fibers Polym}} 20 , year={2019} } @incollection{b51, , title={{Recombinant Silk Hydrogel as a Novel Dermal Filler Component: Preclinical Safety and Efficacy Studies of a New Class of Tissue Fillers}} , author={{ PHZeplin } and { ISukhova } and { AKranz } and { TNürnberger } and { SMihalceanu } and { CBeescho } and { KSchacht } and { MVleugels } and { LRömer } and { HGMachens } and { DDuscher }} , journal={{Aesthet Surg. J}} 40 9 , year={2020} } @incollection{b52, , title={{Silk scaffolds in bone tissue engineering: An overview}} , author={{ PBhattacharjee } and { BKundu } and { DNaskar } and { SCKundu }} , journal={{Acta Biomaterialia}} 63 , year={2017} } @incollection{b53, , title={{Preparation and Statistical Characterization of Tunable Porous Sponge Scaffolds using UV Cross-linking of Methacrylate-Modified Silk Fibroin}} , author={{ ABucciarelli } and { TMuthukumar } and { JSKim } and { WKKim } and { AQuaranta } and { DManiglio } and { GKhang } and { AMotta }} , journal={{ACS Biomater. Sci. Eng}} 5 12 , year={2019} } @incollection{b54, , title={{Silk fibroin/hydroxyapatite scaffold: a highly compatible material for bone regeneration}} , author={{ MSaleem } and { SRasheed } and { CYogen }} , journal={{Science and Technology of Advanced Materials}} 21 , year={2020} } @incollection{b55, , title={{Silk-Based Composite Scaffolds for Tissue Engineering Applications}} , author={{ STandon } and { BKandasubramanian } and { SMIbrahim }} , journal={{Ind. Eng. Chem. Res}} 59 40 , year={2020} } @incollection{b56, , title={{Macro/ microporous silk fibroin scaffolds with potential for articular cartilage and meniscus tissue engineering applications}} , author={{ LPYan } and { JMOliveira } and { ALOliveira } and { SGCaridade } and { JFMano } and { RLReis }} , journal={{Acta Biomaterialia}} 8 1 , year={2012} } @incollection{b57, , title={{Tailoring degradation rates of silk fibroin scaffolds for tissue engineering}} , author={{ LZhang } and { LXin } and { LGuicai } and { WPeiyuan } and { YYumin }} , journal={{J. Biomedical Material Research}} 107 1 , year={2019} } @incollection{b58, , title={{3D Structure and Mechanics of Silk Sponge Scaffolds Is Governed by Larger Pore Sizes}} , author={{ BM PFerreira } and { NAndersson } and { EAtterling } and { JEngqvist } and { SHall } and { CDicko }} , journal={{Frontiers in Materials}} 7 2020 } @incollection{b59, , title={{Improvement of Collagen Gel/Sponge Composite Scaffold by Gel Wrapping for Cartilage Tissue Engineering}} , author={{ YNakamuta } and { MTodo } and { TArahira }} , journal={{I. J. of Bioscience, Biochemistry and Bioinformatics}} 7 , year={2017} } @incollection{b60, , title={{Fabrication and Characterization of Electrospun Silk Fibroin/Gelatin Scaffolds Crosslinked with Glutaraldehyde Vapor}} , author={{ SMohammad Zadehmoghadam } and { YDong }} , journal={{Frontiers in Materials}} 6 , year={2019} } @incollection{b61, , title={{Electrospun Nanofibers as Carriers of Microorganisms, Stem Cells, Proteins, and Nucleic Acids in Therapeutic and Other Applications}} , author={{ SStojanov } and { ABerlec }} , journal={{Frontiers in Bioengineering and Biotechnology}} 8 , year={2020} } @incollection{b62, , title={{Review for application of electrospinning and electrospun nanofibers technology in the textile industry}} , author={{ MMirjalili } and { SZohoori }} , journal={{J. Nanostruct. Chem}} 6 , year={2016} } @incollection{b63, , title={{Electrospun silk fibroin fibers for storage and controlled release of human platelet lysate}} , author={{ CPignatelli } and { GPerotto } and { MNardini } and { RCancedda } and { MMastrogiacomo } and { AAthanassiou }} , journal={{Acta Biomaterialia}} 73 , year={2018} } @incollection{b64, , title={{Characterization of Electrospun Silk Fibroin Scaffolds for Bone Tissue Engineering: A Review}} , author={{ MLMejía-Suaza } and { MEMoncada } and { CPOssa-Orozco }} , journal={{TecnoLógicas}} 23 49 , year={2020} } @incollection{b65, , author={{ GCarrasco-Torres } and { MAValdés-Madrigal } and { VRVásquez-Garzón } and { RBaltiérrez-Hoyo } and { EDe La Cruz-Burelo } and { RRomán-Doval } and { AAValencia-Lazcano }} , booktitle={{Effect of Silk Fibroin on Cell Viability in Electrospun Scaffolds of Polyethylene Oxide}} , year={2019} 11 } @book{b66, , title={{Silk-based electrospun tubular scaffolds for tissue-engineered vascular grafts}} , author={{ LSoffer } and { XWang } and { XZhang } and { JKluge } and { LDorfmann } and { DLKaplan } and { GLeisk }} , year={2008} 19 } @incollection{b67, , title={{Progress in Preparation of Silk Fibroin Microspheres for Biomedical Applications}} , author={{ LShihe } and { XYun } and { ZXingdong }} , journal={{Pharmaceutical Nanotechnology}} 8 5 , year={2020} } @incollection{b68, , title={{One-step preparation and characterization of silk nano-and microspheres}} , author={{ JWu } and { WGuo } and { LZhang } and { YWang } and { LLiu } and { WWang } and { YSun } and { JTao } and { XWang }} , journal={{Polymer Journal}} 52 , year={2020} } @incollection{b69, , title={{Processing of Bombyx mori silk for biomedical applications}} , author={{ BDLawrence }} , journal={{Silk Biomaterials for Tissue Engineering and Regenerative Medicine}} , year={2014} } @incollection{b70, , title={{Silk microspheres for encapsulation and controlled release}} , author={{ XWang } and { EWenk } and { AMatsumoto } and { LMeinel } and { CLi } and { DLKaplan }} , journal={{J. Control. Release}} 117 , year={2007} } @incollection{b71, , title={{Silk nanospheres and microspheres from silk/PVA blend films for drug delivery}} , author={{ XWang } and { TYucel } and { QLu } and { XHu } and { DLKaplan }} , journal={{Biomaterials}} 6 , year={2010. 2010} } @incollection{b72, , title={{Tissue Regeneration: A Silk Road}} , author={{ DJao } and { XMou } and { XHu1 }} , journal={{J. Funct. Biomater}} 7 3 , year={2016} } @incollection{b73, , title={{Silk-Based Biomaterials in Cutaneous Wound Healing: A Systematic Review}} , author={{ PKamalathevan } and { PSOoi } and { YLLoo }} , journal={{Advances in Skin & Wound Care}} , year={2018} } @incollection{b74, , title={{Silk fibroin for skin injury repair: Where do things stand}} , author={{ MGholipourmalekabadi } and { SSapru } and { ASamadikuchaksaraei } and { LRReis } and { DLKaplan } and { SCKundu }} , journal={{Advanced Drug Delivery Reviews}} 153 , year={2020} } @incollection{b75, , title={{Biomimetic hydrogel loaded with silk and l-proline for tissue engineering and wound healing application}} , author={{ PThangavel } and { BRamachandran } and { RKannan } and { VMuthuvijayan }} , journal={{J. Biomed. Mater. Ris. B Appl. Biomater}} 105 , year={2017} } @incollection{b76, , title={{Production and characterization of electrospun silk fibroin based asymmetric membranes for wound dressing applications}} , author={{ SPMiguel } and { DSimões } and { AFMoreira } and { RSSequeira } and { IJCorreia }} , journal={{International Journal of Biological Macromolecules}} 121 , year={2019} } @incollection{b77, , title={{Silk Fibroin as a Functional Biomaterial for Drug and Gene Delivery}} , author={{ MATomeh } and { M } and { RHadianamrei } and { XZhao }} , journal={{Pharmaceutics}} 11 10 , year={2019} } @incollection{b78, , title={{The Wonders of Silk Fibroin Biomaterials in the Treatment of Breast Cancer}} , author={{ PTulay } and { NGalam } and { TAdali }} , journal={{Crit Rev Eukaryot Gene Expr}} 28 2 , year={2018} } @incollection{b79, , title={{Silk fibroin mediated delivery of liposomal emodin to breast cancer cells}} , author={{ SKCheema } and { ASGobin } and { RRhea } and { GLopez-Berestein } and { RANewman } and { ABMathur }} , journal={{Int J Pharm}} 341 , year={2007} } @incollection{b80, , title={{Fabrication and characterization of silk fibroin-derived curcumin nanoparticles for cancer therapy}} , author={{ VGupta } and { AAseh } and { CNRios } and { BBAggarwal } and { ABMathur }} , journal={{Int J Nanomed}} 4 , year={2009} } @incollection{b81, , title={{Silk fibroin encapsulated powder reservoirs for sustained release of adenosine}} , author={{ EMPritchard } and { CSzybala } and { DBoison } and { DLKaplan }} , journal={{J Control Release}} 144 2 , year={2010} } @incollection{b82, , title={{Silk scaffolds in bone tissue engineering: An overview}} , author={{ BPromita } and { KBanani } and { NDeboki } and { KHae-Won } and { MTapas } and { BDebasis } and { KSubhas }} , journal={{Acta Biomaterialia}} 6 , year={2017} } @incollection{b83, , title={{Functionalized silk-based biomaterials for bone formation}} , author={{ SSofia } and { MBMccarthy } and { GGronowicz } and { DLKaplan }} , journal={{Journal of Biomedical Materials Research}} 54 1 , year={2001} } @incollection{b84, , title={{Scaffold Techniques and Designs in Tissue Engineering Functions and Purposes: A Review}} , author={{ AEltom } and { GZhong } and { AMuhammad }} , booktitle={{Advances in Materials Science and Engineering}} , year={2019} } @incollection{b85, , title={{BMP-silk composite matrices heal critically sized femoral defects}} , author={{ CKirker-Head } and { VKarageorgiou } and { SHofmann } and { RFajardo } and { OBetz } and { HPMerkle } and { MHilbe } and { BRechenberg } and { JMccool } and { LAbrahamsen } and { ANazarian } and { ECory } and { MCurtis } and { DKaplan } and { LMeinel }} , journal={{Bone}} 41 2 , year={2007} } @incollection{b86, , title={{Silk fibroin/hydroxyapatite composites for bone tissue engineering}} , author={{ FMottaghitalab } and { SSamani } and { MAShokrgozar } and { SCKund } and { RLReis } and { YFatahi } and { DLKaplan }} , journal={{Biotechnol Adv}} 36 1 , year={2018} } @incollection{b87, , title={{Silk fibroin/hydroxyapatite scaffold: a highly compatible material for bone regeneration}} , author={{ MSaleem } and { SRasheed } and { CYougena }} , journal={{Sci Technol Adv Mater}} 21 1 , year={2020} } @incollection{b88, , title={{Hydroxyapatite and gelatin composite foams processed via novel freeze-drying and crosslinking for use as temporary hard tissue scaffolds}} , author={{ H-WKim } and { JCKnowles } and { H-EKi }} , journal={{J Biomed Mater Res Part}} 72 2 , year={2005} } @incollection{b89, , title={{Effect of Silk Fibroin on Cell Viability in Electrospun Scaffolds of Polyethylene Oxide}} , author={{ GCarrasco-Torres } and { MAValdés-Madrigal } and { VRVásquez-Garzón } and { RBaltiérrez-Hoyos } and { EDe La Cruz-Burelo } and { RRomán-Doval } and { AAValencia-Lazcano }} , journal={{Polymers}} 11 3 , year={2019} } @incollection{b90, , title={{Enhanced Osteogenesis of Bone Marrow-Derived Mesenchymal Stem Cells by a Functionalized Silk Fibroin Hydrogel for Bone Defect Repair}} , author={{ YYan } and { BCheng } and { KChen } and { WCui } and { JQi } and { XLLi } and { Deng }} , journal={{Adv Healthc Mater}} 8 3 , year={2019} } @incollection{b91, , title={{Human Adipose-Derived Mesenchymal Stem Cells-Incorporated Silk Fibroin as a Potential Bio-Scaffold in Guiding Bone Regeneration}} , author={{ MS KChong } and { CBao } and { KPNg }} , journal={{Curr Mol Bio Rep}} 2 4 2020 , year={2016} , note={Polymers (Basel)} } @incollection{b92, , title={{Biomimetic porous scaffolds for bone tissue engineering}} , author={{ SWua } and { XLiu } and { KelvinW KYeung } and { CLiu } and { XYang }} , journal={{Materials Science and Engineering: R: Report}} 80 , year={2014} } @incollection{b93, , title={{Nucleation and growth of mineralized bone matrix on silk-hydroxyapatite composite scaffolds}} , author={{ SBhumiratana } and { WLGrayson } and { ACastaneda } and { DNRockwood } and { ESGil } and { DLKaplan } and { GVunjak } and { Novakovic }} , journal={{Biomaterials}} 32 11 , year={2011} } @incollection{b94, , title={{Bone Regeneration using Silk Hydroxyapatite Hybrid Composite in a Rat Alveolar Defect Model}} , author={{ KSKoh } and { JWChoi } and { EJPark } and { TSOh }} , journal={{J. Med. Sci}} 15 1 , year={2018} } @incollection{b95, , title={{Osteointegration of a Novel Silk Fiber-Based ACL Scaffold by Formation of a Ligament-Bone Interface}} , author={{ Ah } and { STeuschl } and { PTangl } and { UYHeimel } and { XSchwarze } and { HMonforte } and { TRedl } and { Nau }} , journal={{Am J Sports Med}} 47 3 , year={2019} } @incollection{b96, , title={{In vitro evaluation of an RGDfunctionalized chitosan derivative for enhanced cell adhesion}} , author={{ AHansson } and { NHashom } and { FFalson } and { PRousselle } and { OJordan } and { GBorchard }} , journal={{Carbohydr Polym}} 90 , year={2012} } @incollection{b97, , title={{Electrospun silk-collagen scaffolds and BMP-13 for ligament and tendon repair and regeneration}} , author={{ YMaghdouri-White } and { SPetrova } and { NSori } and { MFrancis }} , journal={{Biomedical Physics & Engineering Express}} 4 2 , year={2017} } @incollection{b98, , title={{Biomanufacturing organized collagen-based microfibers as a Tissue Engineered Device (TEND) for tendon regeneration}} , author={{ YMaghdouri-White } and { NSori } and { SPetrova } and { MFrancis }} , journal={{Biomedical Materials}} , year={2020} } @book{b99, , title={{Review of Synthetic and Hybrid Scaffolds in}} , author={{ MWasy?eczko } and { WSikorska } and { AChwojnowsk }} } @incollection{b100, , title={{}} , journal={{Cartilage Tissue Engineering}} 10 11 2020 , note={Membranes} } @incollection{b101, , title={{Cartilage tissue engineering with silk scaffolds and human articular chondrocytes}} , author={{ YZWang } and { DJBlasioli } and { HJKim } and { HSKim } and { DLKaplan }} , journal={{Biomaterials}} 27 25 , year={2006} } @incollection{b102, , title={{Composite poly(l-lactic-acid)/silk fibroin scaffold prepared by electrospinning promotes chondrogenesis for cartilage tissue engineering}} , author={{ ZLi } and { PLiu } and { TYang } and { YSun } and { QYou } and { JLi } and { ZWang } and { BHan }} , journal={{J Biomater Appl}} 30 10 , year={2016} } @incollection{b103, , title={{Observation of chondrocyte aggregate formation and internal structure on micropatterned fibroin-coated surface}} , author={{ NDKachi } and { AOtaka } and { SSim } and { YKuwana } and { YTamada } and { JSunaga }} , journal={{Biomed. Mater. Eng}} 20 , year={2010} } @incollection{b104, , title={{Bioengineered porous composite curcumin/silk scaffolds for cartilage regeneration}} , author={{ DKKim } and { JIKim } and { BRSim } and { GKhang }} , journal={{Materials Science and Engineering: C}} 78 , year={2017} } @incollection{b105, , title={{Three-dimensional scaffolds for tissue engineering: the importance of uniformity in pore size and structure}} , author={{ SWChoi } and { YZhang } and { YXia }} , journal={{Langmuir}} 26 , year={2010} } @incollection{b106, , title={{Biological actions of curcumin on articular chondrocytes}} , author={{ YHenrotin } and { ALClutterbuck } and { DAllaway } and { EMLodwig } and { PHarris } and { MMathy-Hartert }} , journal={{Osteoarthr. Cartil}} 18 , year={2010} } @incollection{b107, , title={{Artificial Auricular Cartilage Using Silk Fibroin and Polyvinyl Alcohol Hydrogel}} , author={{ JMLee } and { MTSultan } and { SHKim } and { VKumar } and { YKYeon } and { OJLee } and { CHPark }} , journal={{Int. J. Mol. Sci}} 18 , year={2017} } @incollection{b108, , title={{Polyvinyl alcoholpoly(caprolactone) semi IPN scaffold with implication for cartilage tissue engineering}} , author={{ PHChao } and { SYodmuang } and { XWang } and { LSun } and { DLKaplan } and { GVunjak-Novakovic }} , journal={{J. Biomed. Mater. Res. B Appl. Biomater}} , editor={109. N. Mohan, P. D. Nair} 95 , year={2010. 2008} , note={J. Biomed. Mater. Res. B Appl. Biomater} } @incollection{b109, , title={{Small diameter electro spun silk fibroin vascular grafts: mechanical properties, in vitro biodegradability, and in vivo biocompatibility}} , author={{ VCatto } and { SFarè } and { ICattaneo } and { MFigliuzzi } and { AAlessandrino } and { GFreddi }} , journal={{Mater. Sci. Eng. C}} 54 , year={2015} } @incollection{b110, , title={{Fabrication of a composite vascular scaffold using electrospinning technology}} , author={{ SDWang } and { YZZhang } and { GBYin } and { HWWang } and { ZHDong }} , journal={{Mater. Sci. Eng. C}} 30 , year={2010} } @incollection{b111, , title={{Fabrication and preliminary study of a biomimetic tri-layer tubular graft based on fibers and fiber yarns for vascular tissue engineering}} , author={{ TWu } and { JZhang } and { YWang } and { DLi } and { BSun } and { HEl-Hamshary }} , journal={{Materials Science & engineering. C, Materials for Biological Applications}} 82 , year={2018} } @incollection{b112, , title={{Three-Layered Silk Fibroin Tubular Scaffold for the Repair and Regeneration of Small Caliber Blood Vessels: From Design to in vivo Pilot Tests}} , author={{ AAlessandrino } and { AChiarini } and { MBiagiotti } and { IPrà } and { GABassani } and { VVincoli } and { PSettembrini } and { PPierima } and { GFreddi } and { UArmato }} , journal={{Frontiers in Bioengineering and Biotechnology}} 7 , year={2019} } @incollection{b113, , title={{Guiding the behaviors of human umbilical vein endothelial cells with patterned silk fibroin films}} , author={{ XDu } and { YWan } and { LYuan } and { YWeng } and { GChen } and { ZHu }} , journal={{Colloids Surf B Bio interfaces}} 122 , year={2014} } @incollection{b114, , title={{Small-diameter vascular grafts of Bombyx mori silk fibroin prepared by a combination of electrospinning and sponge coating}} , author={{ MSato } and { YNakazawa } and { RTakahashi } and { KTanaka } and { MSata } and { DAytemiz } and { TAsakura }} , journal={{Mater Lett}} 64 , year={2010} } @incollection{b115, , title={{2D and 3D Electrospun Silk Fibroin Gelatin Coatings to Improve Scaffold Performances in Cardiovascular Applications}} , author={{ MCTanzi } and { CMarcolin } and { LDraghi } and { SFarè }} , journal={{Mater. Proc}} 2 20 2020 } @incollection{b116, , title={{Engineering silk materials: from natural spinning to artificial processing}} , author={{ GChengchen } and { LChunmei } and { MXuan } and { DLKaplan }} , journal={{Applied Physics Reviews}} 7 1 2020 } @incollection{b117, , title={{Biocompatible silk step-index optical waveguides}} , author={{ GGuidetti } and { YWang } and { FG BOmenetto ; M } and { GApplegate } and { DLPerotto } and { FGKaplan } and { Omenetto }} , journal={{Biomedical Optics Express}} 10 1 , year={2021. 2015} , note={Nanophotonics} } @incollection{b118, , author={{ DLin } and { HTao } and { JTrevino } and { JPMondia } and { DLKaplan } and { FGOmenetto } and { LNegro }} , booktitle={{Direct Transfer of Subwavelength Plasmonic Nanostructures on Bioactive Silk Films}} , year={2012} 24 } @incollection{b119, , title={{Novel and simple route to fabricate fully biocompatible plasmonic mushroom arrays adhered on silk biopolymer}} , author={{ JPark } and { YChoi } and { MLee } and { HJeonbc } and { SKim }} , journal={{Nanoscale}} 7 , year={2015} } @book{b120, , title={{Mechanical properties and application analysis of spider silk bionic material" e-Polymers}} , author={{ YGu } and { LYu } and { JMou } and { DWu } and { PZhou } and { MXu }} , year={2020} 20 } @incollection{b121, , title={{Humidity sensing using THz metamaterial with silk protein fibroin}} , author={{ HSKim } and { SHCha } and { BRoy } and { SKim } and { YHAhn }} , journal={{Optics Express}} 26 26 , year={2018} } @incollection{b122, , title={{Spectral analysis of induced color change on periodically nanopatterned silk films}} , author={{ JJAmsden } and { HPerry } and { SVBoriskina } and { AGopinath } and { DLKaplan } and { LNegro } and { FGOmenetto }} , journal={{Optics Express}} 17 23 , year={2009} } @incollection{b123, , title={{Towards a new generation of fiber-optic chemical sensors based on spider silk threads}} , author={{ KHTow } and { DMChow } and { FVollrath } and { IDicaire } and { TGheysens } and { LThévenaz }} , booktitle={{25th Optical Fiber Sensors Conference (OFS)}} Jeju , year={2017} } @incollection{b124, , title={{Spider silk: a novel optical fiber for biochemical sensing}} , author={{ KHTow } and { DMChow } and { FVollrath } and { IDicaire } and { TGheysens } and { LThevenaz }} , booktitle={{Proc. SPIE9634}} SPIE9634 , year={2015} } @incollection{b125, , title={{Silk fibroin based transparent and wearable humidity sensor for ultra-sensitive respiration monitoring}} , author={{ YLuo } and { YPei } and { XFeng } and { HZhang } and { BLu } and { LWang }} , journal={{Materials Letters}} 260 , year={2020} } @incollection{b126, , title={{Non-contact sensor for long-term continuous vital signs monitoring: a review on intelligent phased-array Doppler sensor design}} , author={{ THall } and { LDec } and { TQNguyen } and { JCMayeda } and { PELie } and { JLopez }} , journal={{Sensors}} 17 , year={2017} } @incollection{b127, , title={{Isolation of Silk Mesostructures for Electronic and Environmental Applications}} , author={{ KZheng } and { JZhong } and { ZQi } and { SLing } and { DLKaplan }} , journal={{Advanced Functional Materials}} 28 51 , year={2018} } @incollection{b128, , title={{Ultrathin Free-Standing Bombyx mori Silk Nanofibril Membranes}} , author={{ LShengjie } and { JKai } and { DLKaplan } and { MJBuehler }} , journal={{Nano Lett}} 16 6 , year={2016} } @incollection{b129, , title={{}} , author={{ MDeRosa } and { CMonreal } and { MSchnitzer }} , journal={{Nanotechnology in fertilizers}} 5 91 , year={2010} , note={Nature Nanotech} } @incollection{b130, , title={{Natural Silk as a Photonics Component: A Study on Its Light Guiding and Nonlinear Optical Properties}} , author={{ SKujala } and { AMannila } and { LKarvonen } and { ZSun }} , journal={{Scientific Reports}} 6 1 , year={2016} } @incollection{b131, , title={{Silk Fibre Composites}} , author={{ PWongpanit } and { OPornsunthorntawee } and { RRujiravanit }} , journal={{Nat. Polym}} , editor={Compos.} 1 , year={2012} } @incollection{b132, , title={{Femtosecond direct laser writing of silk fibroin optical waveguides}} , author={{ MVSantos } and { SN CSantos } and { RJMartins }} , journal={{J Mater Sci: Mater Electron}} 30 , year={2019} } @incollection{b133, , title={{Femtosecond laser direct writing of metal microstructure in a stretchable poly (ethylene glycol) diacrylate (PEGDA) hydrogel}} , author={{ MTerakawa } and { MLTorres-Mapa } and { ATakami } and { DHeinemann } and { NNNedyalkov } and { YNakajima } and { AHordt } and { AHeisterkamp }} , journal={{Optics Letters}} 7 , year={2016} } @incollection{b134, , title={{Native spider silk as a biological optical fiber}} , author={{ NHuby } and { VVié1 } and { ARenault } and { SBeaufils } and { TLefèvre } and { FPaquet-Mercier } and { MPézolet } and { BBêche }} , journal={{Appl. Phys. Lett}} 102 123702 , year={2013} } @book{b135, , title={{Silkhydrogel Lenses for Light-emitting Diodes}} , author={{ RMelikov } and { DAPress } and { BGKumar }} , note={Sci Rep 7, 7258, 2017} } @book{b136, , title={{Light-Emitting Diodes (LEDs) for Lighting Applications}} , author={{ BMoran }} , year={2014} , note={BCC Research paper} } @book{b137, , title={{New EPA Report Shows We are Generating More E-waste but Also Recycling More}} , author={{ BKyle }} , year={2013} } @incollection{b138, , title={{Tailoring of electrical and optical properties of regenerated silk fibroin films with metal oxides}} , author={{ RYadav } and { RPurwar }} , journal={{J Mater Sci: Mater Electron}} 31 , year={2020} } @incollection{b139, , title={{Solutionprocessed metal-oxides for organic electronic devices}} , author={{ KZilberberg } and { JMeyerb } and { T }} , journal={{Journal of Materials Chemistry C}} 32 , year={2013} } @incollection{b140, , title={{A sensor-driver integrated muscle module with high-tension measurability and flexibility for tendon-driven robots}} , author={{ YAsano }} , booktitle={{IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)}} , publisher={IEEE} , year={2015. 2015} } @incollection{b141, , title={{A super tough electro-tendon based on spider silk composites}} , author={{ LPan } and { FWang } and { YCheng } and { WRuLeow } and { Yong-WeiZhang } and { MWang } and { PCai } and { BJi } and { DLi } and { XChen }} , journal={{Nat Commun}} 11 1332 , year={2020} } @incollection{b142, , title={{Conductive Silk-Based Composites Using Biobased Carbon Materials}} , author={{ DLBarreiro } and { ZMartín-Moldes } and { JYeo } and { SShen } and { MJHawker } and { FJMartin-Martinez } and { DLKaplan } and { MarkusJBuehler }} , journal={{Adv. Mater}} 31 , year={2019} } @incollection{b143, , title={{Hydrothermal biomass conversion: Quo Vadis?}} , author={{ AKruse } and { NDahmen }} , journal={{The Journal of Supercritical Fluids}} 134 , year={2018} } @incollection{b144, , title={{Recent progress in silk fibroin-based flexible electronics}} , author={{ Dl } and { DHWen } and { PSun } and { Huang }} , journal={{Microsyst. Nanoeng}} 7 35 2021 } @incollection{b145, , title={{Silk materials for medical, electronic and optical applications}} , author={{ SFan } and { YZhang } and { XHuang }} , journal={{Sci. China Technol. Sci}} 62 , year={2019} } @incollection{b146, , title={{Flexible Organic Thin-Film Transistors with Silk Fibroin as the Gate Dielectric}} , author={{ CHWang } and { CYHsieh } and { JHwang }} , journal={{Advanced Materials}} 23 14 , year={2011} } @incollection{b147, , title={{A Silk Fibroin Bio-Transient Solution Processable Memristor}} , author={{ JYong } and { BHassan } and { YLiang }} , journal={{Sci Rep}} 7 14731 , year={2017} } @incollection{b148, , author={{ JSong } and { KDo } and { JKoo } and { DSon } and { DKim }} , booktitle={{Nanomaterials-based flexible and stretchable bioelectronics}} , year={2019} 44 } @incollection{b149, , title={{Plasticizing Silk Protein for On-Skin Stretchable Electrodes}} , author={{ GChen } and { NMatsuhisa } and { ZLiu } and { DQi } and { PCai } and { YJiang } and { CWan } and { YCui } and { WRLeow } and { ZLiu } and { SGong } and { KQZhang } and { YCheng } and { XChen }} , journal={{Adv. Mater}} 30 1 , year={2018} } @incollection{b150, , title={{A Biodegradable and Stretchable Protein-Based Sensor as Artificial Electronic Skin for Human Motion Detection}} , author={{ CHou } and { ZXu } and { WQiu } and { RWu } and { YWang } and { QXu } and { XYLiu } and { WGuo }} , journal={{Small}} 15 11 , year={2019} } @incollection{b151, , title={{Stretchable and Heat-Resistant Protein-Based Electronic Skin for Human Thermoregulation}} , author={{ JHuang } and { ZXu } and { WQiu } and { FChen } and { ZMeng } and { CHou } and { WGuo } and { XYLiu }} , journal={{Advanced Functional Materials}} 30 13 2020 } @incollection{b152, , title={{Self-powered artificial skin made of engineered silk protein hydrogel}} , author={{ NGogurla } and { BRoy } and { SKim }} , journal={{Nano Energy}} 77 , year={2020} } @incollection{b153, , author={{ CDagdeviren } and { SWHwang } and { YSu } and { SKim } and { HCheng } and { OGur } and { RHaney } and { FGOmenetto } and { YHuang } and { JARogers }} , booktitle={{Transient, Biocompatible Electronics and Energy Harvesters Based on ZnO}} , year={2013} 9 } @incollection{b154, , title={{Use of Silk Proteins to Form Organic, Flexible, Degradable Biosensors for Metabolite Monitoring}} , author={{ XMeng } and { JYanke } and { PSayantan } and { VKYadavalli }} , journal={{Frontiers in Materials}} 6 , year={2019} } @incollection{b155, , title={{Flexible biosensors for the impedimetric detection of protein targets using silkconductive polymer biocomposites}} , author={{ MXu } and { VKYadavalli }} , journal={{ACS Sensors}} 4 , year={2019} } @incollection{b156, , title={{Foreign body reaction to implantable biosensors: effects of tissue trauma and implant size}} , author={{ YWang } and { SVaddiraju } and { BGu } and { FPapadimitrako Poulos } and { DJBurgess }} , journal={{J. Diabetes Sci. Technol}} 9 , year={2015} } @incollection{b157, , title={{A flexible fiber-based super capacitor-triboelectric-nano generator power system for wearable electronics}} , author={{ JWang } and { XLi } and { YZi } and { SWang } and { ZLi } and { LZheng } and { FYi } and { SLi } and { ZLWang }} , journal={{Adv. Mater}} 27 48304836 , year={2015} } @incollection{b158, , title={{Woven structured triboelectric nanogenerator for wearable devices}} , author={{ TZhou } and { CZhang } and { CBHan } and { FRFan } and { WTang } and { ZLWang }} , booktitle={{ACS Appl}} } @incollection{b159, , title={{}} , journal={{Mater. Interfaces}} 6 , year={2014} } @incollection{b160, , title={{Printable Smart Pattern for Multifunctional Energy-Management E-Textile}} , author={{ MZhang } and { MZhao } and { MJian } and { CWang } and { AYu } and { ZYin } and { XLiang } and { HWang } and { KXia } and { XLiang } and { JZhai } and { YZhang }} , booktitle={{Matter}} , year={2019} 1 }