In situ generation of bioadhesives using dry tannic silk particles: A wet-adhesion strategy relying on removal of hydraulic layer over wet tissues for wound care.

[1]  W. Chen,et al.  Green chemistry fabrication of durable antimicrobial peptide-immobilized silk fibroin films for accelerated full-thickness wound healing , 2023, Materials Today Chemistry.

[2]  Haiqing Liu,et al.  Mussel Foot Protein Inspired Tape‐Type Adhesive with Water‐Responsive, High Conformal, Tough, and On‐Demand Detachable Adhesion to Wet Tissue , 2023, Advanced healthcare materials.

[3]  T. Guo,et al.  Tuning Water-Resistant Networks in Mussel-Inspired Hydrogels for Robust Wet Tissue and Bioelectronic Adhesion. , 2023, ACS nano.

[4]  Jianmin Yang,et al.  Multi-crosslinked hydrogels with strong wet adhesion, self-healing, antibacterial property, reactive oxygen species scavenging activity, and on-demand removability for seawater-immersed wound healing. , 2023, Acta biomaterialia.

[5]  Ankun Zhou,et al.  A natural biological adhesive from snail mucus for wound repair , 2023, Nature Communications.

[6]  Xiaoling Wang,et al.  Multifunctional Dual Cross‐Linked Bioadhesive Patch with Low Immunogenic Response and Wet Tissues Adhesion , 2022, Advanced Healthcare Materials.

[7]  Jiaxi Cui,et al.  Engineering multifunctional bioadhesive powders through dynamic metal-ligand coordination , 2022, Science China Chemistry.

[8]  Jingyue Wang,et al.  Multifunctional all-in-one adhesive hydrogel for the treatment of perianal infectious wounds , 2022, Frontiers in Bioengineering and Biotechnology.

[9]  Zhaoli Li,et al.  Ultrastretchable, Self-Healable, and Tissue-Adhesive Hydrogel Dressings Involving Nanoscale Tannic Acid/Ferric Ion Complexes for Combating Bacterial Infection and Promoting Wound Healing. , 2022, ACS applied materials & interfaces.

[10]  L. Bian,et al.  Coacervate‐Derived Hydrogel with Effective Water Repulsion and Robust Underwater Bioadhesion Promotes Wound Healing , 2022, Advanced science.

[11]  Y. Liang,et al.  Bioinspired Injectable Self-Healing Hydrogel Sealant with Fault-Tolerant and Repeated Thermo-Responsive Adhesion for Sutureless Post-Wound-Closure and Wound Healing , 2022, Nano-Micro Letters.

[12]  Yaxin Guo,et al.  Tough Wet Adhesion of Hydrogen-Bond-Based Hydrogel with On-Demand Debonding and Efficient Hemostasis. , 2022, ACS applied materials & interfaces.

[13]  R. Mohammadinejad,et al.  Tannic acid: a versatile polyphenol for design of biomedical hydrogels. , 2022, Journal of materials chemistry. B.

[14]  Jia Liu,et al.  Bio‐Inspired Self‐Hydrophobized Sericin Adhesive with Tough Underwater Adhesion Enables Wound Healing and Fluid Leakage Sealing (Adv. Funct. Mater. 32/2022) , 2022, Advanced Functional Materials.

[15]  Huanyu Cheng,et al.  Smart bioadhesives for wound healing and closure , 2022, Bioactive materials.

[16]  Xiguang Chen,et al.  Ternary Complex Coacervate of PEG/TA/Gelatin as Reinforced Bioadhesive for Skin Wound Repair. , 2022, ACS applied materials & interfaces.

[17]  F. Bobinski,et al.  Iota-carrageenan/xyloglucan/serine powders loaded with tranexamic acid for simultaneously hemostatic, antibacterial, and antioxidant performance. , 2022, Biomaterials advances.

[18]  Fei Li,et al.  Mussel‐ and Barnacle Cement Proteins‐Inspired Dual‐Bionic Bioadhesive with Repeatable Wet‐Tissue Adhesion, Multimodal Self‐Healing, and Antibacterial Capability for Nonpressing Hemostasis and Promoted Wound Healing , 2022, Advanced Functional Materials.

[19]  Ying Wan,et al.  Thiolated hyaluronic acid/silk fibroin dual-network hydrogel incorporated with bioglass nanoparticles for wound healing. , 2022, Carbohydrate polymers.

[20]  Jiyao Li,et al.  A mussel-inspired wet-adhesion hydrogel with hemostasis and local anti-inflammation for managing the development of acute wounds , 2022, Materials & Design.

[21]  X. Chen,et al.  Tough Hydrogel Bioadhesives for Sutureless Wound Sealing, Hemostasis and Biointerfaces , 2021, Advanced Functional Materials.

[22]  Jianhai Yang,et al.  A hyperbranched polymer-based water-resistant adhesive: Durable underwater adhesion and primer for anchoring anti-fouling hydrogel coating , 2021, Science China Technological Sciences.

[23]  Wufang Yang,et al.  Transparent Janus Hydrogel Wet Adhesive for Underwater Self-Cleaning. , 2021, ACS applied materials & interfaces.

[24]  Dongjian Shi,et al.  Mussel-Inspired Epoxy Bioadhesive with Enhanced Interfacial Interactions for Wound Repair. , 2021, Acta biomaterialia.

[25]  W. Park,et al.  Gelation and the antioxidant and antibacterial properties of silk fibroin/tannic acid/Zn2+ mixtures , 2021 .

[26]  Shuai Liu,et al.  Bio-inspired hydrogel-based bandage with robust adhesive and antibacterial abilities for skin closure , 2021, Science China Materials.

[27]  B. Zuo,et al.  Self-Healing, Self-Adhesive Silk Fibroin Conductive Hydrogel as a Flexible Strain Sensor. , 2021, ACS applied materials & interfaces.

[28]  Jiahui He,et al.  Functional Hydrogels as Wound Dressing to Enhance Wound Healing. , 2021, ACS nano.

[29]  Yu-shi He,et al.  Biomimetic Glycopolypeptide Hydrogels with Tunable Adhesion and Microporous Structure for Fast Hemostasis and Highly Efficient Wound Healing , 2021, Advanced Functional Materials.

[30]  S. Kundu,et al.  Highly Absorbent Silk Fibroin Protein Xerogel. , 2021, ACS biomaterials science & engineering.

[31]  Boguang Yang,et al.  Ultrafast Self‐Gelling and Wet Adhesive Powder for Acute Hemostasis and Wound Healing , 2021, Advanced Functional Materials.

[32]  Xiangwei Zhu,et al.  Improved water resistance of TA-modified soy adhesive: Effect of complexation , 2021, International Journal of Adhesion and Adhesives.

[33]  Xiaochen Liu,et al.  A mussel-inspired supramolecular hydrogel with robust tissue anchor for rapid hemostasis of arterial and visceral bleedings , 2021, Bioactive materials.

[34]  Q. Fu,et al.  Surface roughness of silk fibroin/alginate microspheres for rapid hemostasis in vitro and in vivo. , 2021, Carbohydrate polymers.

[35]  Changlei Xia,et al.  Facile biomimetic self-coacervation of tannic acid and polycation: Tough and wide pH range of underwater adhesives , 2021 .

[36]  H. Santos,et al.  A Hydrogen‐Bonded Extracellular Matrix‐Mimicking Bactericidal Hydrogel with Radical Scavenging and Hemostatic Function for pH‐Responsive Wound Healing Acceleration , 2020, Advanced healthcare materials.

[37]  Wenguang Liu,et al.  A Janus Hydrogel Wet Adhesive for Internal Tissue Repair and Anti‐Postoperative Adhesion , 2020, Advanced Functional Materials.

[38]  Boguang Yang,et al.  Ultrafast self-gelling powder mediates robust wet adhesion to promote healing of gastrointestinal perforations , 2020, Science Advances.

[39]  Xiaokong Liu,et al.  Substrate-Independent, Reversible, and Easy-Release Ionogel Adhesives with High Bonding Strength. , 2020, Macromolecular rapid communications.

[40]  Hua Dong,et al.  A medical adhesive used in a wet environment by blending tannic acid and silk fibroin. , 2020, Biomaterials science.

[41]  Y. Ong,et al.  Adhesive Biocomposite Electrodes on Sweaty Skin for Long-Term Continuous Electrophysiological Monitoring , 2020 .

[42]  Jun Li,et al.  Moist-Retaining, Self-Recoverable, Bioadhesive, and Transparent in Situ Forming Hydrogels To Accelerate Wound Healing. , 2020, ACS applied materials & interfaces.

[43]  Jibin Song,et al.  Bioinspired Mineral–Organic Bone Adhesives for Stable Fracture Fixation and Accelerated Bone Regeneration , 2019, Advanced Functional Materials.

[44]  Xuanhe Zhao,et al.  Dry double-sided tape for adhesion of wet tissues and devices , 2019, Nature.

[45]  Xiaodong Chen,et al.  A silk-based sealant with tough adhesion for instant hemostasis of bleeding tissues , 2019, Nanoscale Horizons.

[46]  Wenguang Liu,et al.  Water‐Triggered Hyperbranched Polymer Universal Adhesives: From Strong Underwater Adhesion to Rapid Sealing Hemostasis , 2019, Advanced materials.

[47]  Mingying Yang,et al.  Polydopamine-Coated Antheraea pernyi (A. pernyi) Silk Fibroin Films Promote Cell Adhesion and Wound Healing in Skin Tissue Repair. , 2019, ACS applied materials & interfaces.

[48]  Y. S. Zhang,et al.  A Bioinspired Medical Adhesive Derived from Skin Secretion of Andrias davidianus for Wound Healing , 2019, Advanced Functional Materials.

[49]  F. Dai,et al.  Biodegradable Microporous Starch with Assembled Thrombin for Rapid Induction of Hemostasis , 2019, ACS Sustainable Chemistry & Engineering.

[50]  Baolin Guo,et al.  Adhesive Hemostatic Conducting Injectable Composite Hydrogels with Sustained Drug Release and Photothermal Antibacterial Activity to Promote Full-Thickness Skin Regeneration During Wound Healing. , 2019, Small.

[51]  Yakai Feng,et al.  Biofunctionalized Electrospun PCL-PIBMD/SF Vascular Grafts with PEG and Cell-Adhesive Peptides for Endothelialization. , 2018, Macromolecular bioscience.

[52]  Hyunjoo J. Lee,et al.  Calcium‐Modified Silk as a Biocompatible and Strong Adhesive for Epidermal Electronics , 2018, Advanced Functional Materials.

[53]  He Liu,et al.  A functional chitosan-based hydrogel as a wound dressing and drug delivery system in the treatment of wound healing , 2018, RSC advances.

[54]  Guangqian Lan,et al.  Preparation and characterization of a chitin/platelet-poor plasma composite as a hemostatic material , 2016 .

[55]  G. S. Nadiger,et al.  Crystallinity in silk fibers: Partial acid hydrolysis and related studies , 1980 .

[56]  S. Shi,et al.  A tannin-functionalized soy protein-based adhesive hydrogel as a wound dressing , 2022, Industrial Crops and Products.

[57]  Kunxi Zhang,et al.  Microspheres powder as potential clinical auxiliary materials for combining with platelet-rich plasma to prepare cream gel towards wound treatment , 2022, Applied Materials Today.

[58]  Shaohua Zhang,et al.  Hydrogels for Underwater Adhesion: Adhesion Mechanism, Design Strategies and Applications , 2022, Journal of Materials Chemistry A.

[59]  Menghao Wang,et al.  Mussel‐Inspired Adhesive and Conductive Hydrogel with Long‐Lasting Moisture and Extreme Temperature Tolerance , 2018 .