Constructing Fireproof MXene-Based Cotton Fabric/Thermoplastic Polyurethane Hierarchical Composites via Encapsulation Strategy

[1]  Yuezhan Feng,et al.  Mechanically strong hierarchical nanosystem for fire protection and electromagnetic interference shielding , 2023, Composites Part B: Engineering.

[2]  Yuezhan Feng,et al.  Construction of MXene/MOFs nano-coatings on PU sponge with enhanced interfacial interaction and fire resistance towards efficient removal of liquid hazardous chemicals , 2023, Journal of Cleaner Production.

[3]  Yuezhan Feng,et al.  Architecting fire safe hierarchical polymer nanocomposite films with excellent electromagnetic interference shielding via interface engineering. , 2023, Journal of colloid and interface science.

[4]  De‐yi Wang,et al.  Highly efficient intumescent flame retardant of dopamine-modified ammonium polyphosphate for the thermoplastic polyurethane elastomer , 2022, Journal of Thermal Analysis and Calorimetry.

[5]  Yuezhan Feng,et al.  Supramolecular engineered ultrathin MXene towards fire safe polylactic acid composites , 2022, Composites Communications.

[6]  Hongfei Li,et al.  Oriented growth of LDH for constructing multifunctional cotton fabric with flame retardancy, smoke suppression, and filtering capability , 2022, Applied Clay Science.

[7]  Yuezhan Feng,et al.  Multi-hierarchical flexible composites towards superior fire safety and electromagnetic interference shielding , 2022, Nano Research.

[8]  Lei Song,et al.  Self-assembly of hierarchical MXene@SnO2 nanostructure for enhancing the flame retardancy, solar de-icing, and mechanical property of polyurethane resin , 2022, Composites Part B: Engineering.

[9]  Fang Wang,et al.  A Multifunctional Coating Towards Superhydrophobicity, Flame Retardancy and Antibacterial Performances , 2022, SSRN Electronic Journal.

[10]  Lei Song,et al.  Octopus sucker-inspired hierarchical structure MXene@carbon nanotubes enhancing the menchanical properties and fire safety of thermoplastic polyurethane composites through the interfacial engineering , 2022, Chemical Engineering Journal.

[11]  Bin Shen,et al.  High-performance porous carbon foams via catalytic pyrolysis of modified isocyanate-based polyimide foams for electromagnetic shielding , 2022, Nano Research.

[12]  T. Nguyen,et al.  Superhydrophobic self-extinguishing cotton fabrics for electromagnetic interference shielding and human motion detection , 2022, Journal of Materials Science & Technology.

[13]  Hua Li,et al.  Multifunctional recycled carbon fiber-Ti3C2Tx MXene paper with superior electromagnetic interference shielding and photo/electro-thermal conversion performances , 2022, Carbon.

[14]  Lianhua Yin,et al.  Facile strategy to synthesize MXene@LDH nanohybrids for boosting the flame retardancy and smoke suppression properties of epoxy , 2022, Composites Part A: Applied Science and Manufacturing.

[15]  De‐yi Wang,et al.  Biomass-based coating from chitosan for cotton fabric with excellent flame retardancy and improved durability , 2022, Cellulose.

[16]  Lei Song,et al.  Multifunctional fireproof electromagnetic shielding polyurethane films with thermal management performance , 2022, Chemical Engineering Journal.

[17]  Rangtong Liu,et al.  Bio-based coating of phytic acid, chitosan, and biochar for flame-retardant cotton fabrics , 2022, Polymer Degradation and Stability.

[18]  R. Sonnier,et al.  Layer-by-layer polymer deposited fabrics with superior flame retardancy and electrical conductivity , 2022, Reactive and Functional Polymers.

[19]  Daqing He,et al.  Wearable superhydrophobic PPy/MXene pressure sensor based on cotton fabric with superior sensitivity for human detection and information transmission , 2022, Colloids and Surfaces A: Physicochemical and Engineering Aspects.

[20]  Zhang Wei,et al.  Ca2C MXene monolayer as a superior material for detection of toxic pnictogen hydrides , 2022, Materials Chemistry and Physics.

[21]  Xiaodong Xu,et al.  A reactive copper-organophosphate-MXene heterostructure enabled antibacterial, self-extinguishing and mechanically robust polymer nanocomposites , 2022, Chemical Engineering Journal.

[22]  Kui Xu,et al.  Fire-Safe, Mechanically Strong and Tough Thermoplastic Polyurethane/MXene Nanocomposites with Exceptional Smoke Suppression , 2022, Materials Today Physics.

[23]  Pingan Song,et al.  Interface nanoengineering of a core-shell structured biobased fire retardant for fire-retarding polylactide with enhanced toughness and UV protection , 2022, Journal of Cleaner Production.

[24]  Jilai Wang,et al.  Mechanically robust Ti3C2Tx MXene/Carbon fiber fabric/Thermoplastic polyurethane composite for efficient electromagnetic interference shielding applications , 2022, Materials & Design.

[25]  Minghua Liu,et al.  Phosphorous-Nitrogen flame retardants engineering MXene towards highly fire safe thermoplastic polyurethane , 2022, Composites Communications.

[26]  Yuezhan Feng,et al.  MXene-Coated Wrinkled Fabrics for Stretchable and Multifunctional Electromagnetic Interference Shielding and Electro/Photo-Thermal Conversion Applications. , 2021, ACS applied materials & interfaces.

[27]  Yuezhan Feng,et al.  MXene based core-shell flame retardant towards reducing fire hazards of thermoplastic polyurethane , 2021, Composites Part B: Engineering.

[28]  Eman A. Bydoon,et al.  Bioactive Composite Nonwoven Surgical Dressing based on Cellulose Coated with Nanofiber Membrane using the layer-by-layer technique , 2021, Egyptian Journal of Chemistry.

[29]  Lei Song,et al.  Preparation of soybean root-like CNTs/bimetallic oxides hybrid to enhance fire safety and mechanical performance of thermoplastic polyurethane , 2021, Chemical Engineering Journal.

[30]  Yuezhan Feng,et al.  Synergistic function of N‐P‐Cu containing supermolecular assembly networks in intumescent flame retardant thermoplastic polyurethane , 2021, Polymers for Advanced Technologies.

[31]  Lei Song,et al.  Durable electromagnetic interference (EMI) shielding ramie fabric with excellent flame retardancy and Self-healing performance. , 2021, Journal of colloid and interface science.

[32]  R. Purwar,et al.  Silica modified candelilla wax/thermoplastic polyurethane blend coatings for hydrophobic textiles , 2021, Journal of the Textile Institute.

[33]  Murat Çağlar Baydoğan,et al.  Experimental analysis of sound absorption effect of specially developed elastomeric thin thermoplastic polyurethane sub-micron fibre web layers placed on rigid layer and flexible layers , 2021, Plastics, Rubber and Composites.

[34]  Xingrong Zeng,et al.  Multifunctional MXene/Chitosan-Coated Cotton Fabric for Intelligent Fire Protection. , 2021, ACS applied materials & interfaces.

[35]  Shaoxiang Li,et al.  Copper metal‐organic framework toward flame‐retardant enhancement of thermoplastic polyurethane elastomer composites based on ammonium polyphosphate , 2021, Polymers for Advanced Technologies.

[36]  Shenmin Zhang,et al.  Surface modification on ammonium polyphosphate and its enhanced flame retardancy in thermoplastic polyurethane , 2021 .

[37]  Xiuyu Liu,et al.  Facile fabrication of NiAl-LDH and its application in TPU nanocomposites targets for reducing fire hazards , 2021 .

[38]  Jia‐Horng Lin,et al.  Facile fabrication and mass production of TPU/Silica/STF coated aramid fabric with excellent flexibility and quasi-static stab resistance for versatile protection , 2021 .

[39]  Yanjun Lin,et al.  Smoke suppressant in flame retarded thermoplastic polyurethane composites: Synergistic effect and mechanism study , 2021, Nano Research.

[40]  Yongqian Shi,et al.  Creating MXene/reduced graphene oxide hybrid towards highly fire safe thermoplastic polyurethane nanocomposites , 2020 .

[41]  Fenghua Zhang,et al.  Experimental investigation of flame retardancy and mechanical properties of APP / EG / TPU multilayer composites prepared by microlayer coextrusion technology , 2020 .

[42]  Rushikesh S. Ambekar,et al.  2D Hexagonal Boron Nitride coated cotton fabric with Self-extinguishing property. , 2020, ACS applied materials & interfaces.

[43]  Dan Yu,et al.  High‐electromagnetic‐shielding cotton fabric prepared using multiwall carbon nanotubes/nickel–phosphorus electroless plating , 2020 .

[44]  Guozhang Chang,et al.  Hydrothermal Synthesis of Lanthanum-Doped MgAl-Layered Double Hydroxide/Graphene Oxide Hybrid and Its Application as Flame Retardant for Thermoplastic Polyurethane , 2020 .

[45]  Yuan Hu,et al.  Natural antioxidant functionalization for fabricating ambient-stable black phosphorus nanosheets toward enhancing flame retardancy and toxic gases suppression of polyurethane. , 2019, Journal of hazardous materials.

[46]  X. Mu,et al.  Self-assembly followed by radical polymerization of ionic liquid for interfacial engineering of black phosphorus nanosheets: Enhancing flame retardancy, toxic gas suppression and mechanical performance of polyurethane. , 2019, Journal of colloid and interface science.

[47]  P. Zhu,et al.  Synthesis of a Novel Linear α, ω-Di (Chloro Phosphoramide) Polydimethylsiloxane and Its Applications in Improving Flame-Retardant and Water-Repellent Properties of Cotton Fabrics , 2019, Polymers.

[48]  H. Sodano,et al.  Improved Interyarn Friction, Impact Response, and Stab Resistance of Surface Fibrilized Aramid Fabric , 2019, Advanced Materials Interfaces.

[49]  G. Yeoh,et al.  Interface decoration of exfoliated MXene ultra-thin nanosheets for fire and smoke suppressions of thermoplastic polyurethane elastomer. , 2019, Journal of hazardous materials.

[50]  Long Li,et al.  Study on the Rotor Spinning Technology of Cotton Stalk Bark Fibres/Cotton Fibres , 2018, Fibres & Textiles in Eastern Europe.

[51]  Lei Song,et al.  Atherton–Todd reaction assisted synthesis of functionalized multicomponent MoSe2/CNTs nanoarchitecture towards the fire safety enhancement of polymer , 2018, Composites Part A: Applied Science and Manufacturing.

[52]  Yongqian Shi,et al.  Design of reduced graphene oxide decorated with DOPO-phosphanomidate for enhanced fire safety of epoxy resin. , 2018, Journal of colloid and interface science.

[53]  Lei Song,et al.  Finishing of cotton fabrics by multi-layered coatings to improve their flame retardancy and water repellency , 2018, Cellulose.

[54]  Q. Ji,et al.  Influence of Na+ and Ca2+ on flame retardancy, thermal degradation, and pyrolysis behavior of cellulose fibers. , 2017, Carbohydrate polymers.

[55]  Jun Zhang,et al.  Microencapsulation of ammonium polyphosphate with hydroxyl silicone oil and its flame retardance in thermoplastic polyurethane , 2011 .

[56]  Hao Wang,et al.  Functionalizing MXene towards highly stretchable, ultratough, fatigue- and fire-resistant polymer nanocomposites , 2021 .

[57]  I. Papa,et al.  Low-velocity Impact and Flexural Properties of Thermoplastic Polyurethane/Woven Glass Fabric Composite Laminates☆ , 2016 .