Self-Healable, Recyclable, and Reprocessable Poly(urethane–urea) Elastomers with Tunable Mechanical Properties Constructed by Incorporating Triple Dynamic Bonds

[1]  Yifan Guo,et al.  A Dynamically Hybrid Crosslinked Elastomer for Room‐Temperature Recyclable Flexible Electronic Devices , 2021, Advanced Functional Materials.

[2]  Zhenggang Xiao,et al.  High-Performance Self-Healing Polyurethane Binder Based on Aromatic Disulfide Bonds and Hydrogen Bonds for the Sulfur Cathode of Lithium–Sulfur Batteries , 2021, Industrial & Engineering Chemistry Research.

[3]  Jianhua Xu,et al.  Molecular engineering of a colorless, extremely tough, superiorly self-recoverable, and healable poly(urethane-urea) elastomer for impact-resistant applications. , 2021, Materials horizons.

[4]  Junqi Sun,et al.  Healable and Recyclable Elastomers with Record‐High Mechanical Robustness, Unprecedented Crack Tolerance, and Superhigh Elastic Restorability , 2021, Advanced materials.

[5]  Liqiang Xu,et al.  A supramolecular polymer with ultra-stretchable, notch-insensitive, rapid self-healing and adhesive properties , 2021, Polymer Chemistry.

[6]  Q. Fu,et al.  A self-reinforcing and self-healing elastomer with high strength, unprecedented toughness and room-temperature reparability. , 2021, Materials horizons.

[7]  F. Du,et al.  Highly Stretchable, Self-Healable, and Adhesive Polyurethane Elastomers Based on Boronic Ester Bonds , 2020, ACS Applied Polymer Materials.

[8]  Junqi Sun,et al.  Healable, Recyclable, and Mechanically Tough Polyurethane Elastomers with Exceptional Damage Tolerance , 2020, Advanced materials.

[9]  Jianhai Yang,et al.  Multiple H‐Bonding Chain Extender‐Based Ultrastiff Thermoplastic Polyurethanes with Autonomous Self‐Healability, Solvent‐Free Adhesiveness, and AIE Fluorescence , 2020, Advanced Functional Materials.

[10]  Xi Zhang,et al.  Tough and Multi‐Recyclable Cross‐Linked Supramolecular Polyureas via Incorporating Noncovalent Bonds into Main‐Chains , 2020, Advanced materials.

[11]  Eun Seong Lee,et al.  Mechano-responsive hydrogen-bonding array of thermoplastic polyurethane elastomer captures both strength and self-healing , 2020, Nature Communications.

[12]  Laura Ward Self-Healing Polymers , 2011 .

[13]  H. Haick,et al.  Highly Efficient and Water‐Insensitive Self‐Healing Elastomer for Wet and Underwater Electronics , 2020, Advanced Functional Materials.

[14]  D. Qu,et al.  Toughening a Self-Healable Supramolecular Polymer by Ionic Cluster-Enhanced Iron-Carboxylate Complexes. , 2020, Angewandte Chemie.

[15]  Yudong Huang,et al.  Self-Healing Polysiloxane Elastomer Based on Integration of Covalent and Reversible Networks , 2019, Industrial & Engineering Chemistry Research.

[16]  Yifan Guo,et al.  A Highly Efficient Self‐Healing Elastomer with Unprecedented Mechanical Properties , 2019, Advanced materials.

[17]  Hung Q. Pham,et al.  Tailoring the Hard–Soft Interface with Dynamic Diels–Alder Linkages in Polyurethanes: Toward Superior Mechanical Properties and Healability at Mild Temperature , 2019, Chemistry of Materials.

[18]  Tao Qi,et al.  Towards Dynamic but Supertough Healable Polymers through Biomimetic Hierarchical Hydrogen-Bonding Interactions. , 2018, Angewandte Chemie.

[19]  Francisco Molina-Lopez,et al.  An integrated self-healable electronic skin system fabricated via dynamic reconstruction of a nanostructured conducting network , 2018, Nature Nanotechnology.

[20]  Jianhua Xu,et al.  Extremely Stretchable, Self-Healable Elastomers with Tunable Mechanical Properties: Synthesis and Applications , 2018, Chemistry of Materials.

[21]  Xiao Kuang,et al.  Colorless, Transparent, Robust, and Fast Scratch‐Self‐Healing Elastomers via a Phase‐Locked Dynamic Bonds Design , 2018, Advanced materials.

[22]  Lan Li,et al.  A rigid and healable polymer cross-linked by weak but abundant Zn(II)-carboxylate interactions , 2018, Nature Communications.

[23]  Liqun Zhang,et al.  Toughening Elastomers Using a Mussel-Inspired Multiphase Design. , 2018, ACS applied materials & interfaces.

[24]  J. B. Tok,et al.  An Elastic Autonomous Self‐Healing Capacitive Sensor Based on a Dynamic Dual Crosslinked Chemical System , 2018, Advanced materials.

[25]  Xinli Jing,et al.  Room-temperature fully recyclable carbon fibre reinforced phenolic composites through dynamic covalent boronic ester bonds , 2018 .

[26]  Z. Guan,et al.  Recyclable, Strong, and Highly Malleable Thermosets Based on Boroxine Networks. , 2018, Journal of the American Chemical Society.

[27]  M. Rong,et al.  Polymer engineering based on reversible covalent chemistry: A promising innovative pathway towards new materials and new functionalities , 2018 .

[28]  E. Han,et al.  Corrosion resistance of a self-healing micro-arc oxidation/polymethyltrimethoxysilane composite coating on magnesium alloy AZ31 , 2017 .

[29]  Nancy R. Sottos,et al.  Polymers with autonomous life-cycle control , 2016, Nature.

[30]  Ke Yang,et al.  Malleable and Recyclable Poly(urea‐urethane) Thermosets bearing Hindered Urea Bonds , 2016, Advanced materials.

[31]  M. Rong,et al.  Self-healing, Reshaping, and Recycling of Vulcanized Chloroprene Rubber: A Case Study of Multitask Cyclic Utilization of Cross-linked Polymer , 2016 .

[32]  Scott R White,et al.  Biomimetic Self-Healing. , 2015, Angewandte Chemie.

[33]  Ulrich S. Schubert,et al.  Acylhydrazones as Reversible Covalent Crosslinkers for Self‐Healing Polymers , 2015 .

[34]  Kim K. Oehlenschlaeger,et al.  Adaptable Hetero Diels–Alder Networks for Fast Self‐Healing under Mild Conditions , 2014, Advanced materials.

[35]  Germán Cabañero,et al.  Catalyst-free room-temperature self-healing elastomers based on aromatic disulfide metathesis , 2014 .

[36]  Jianjun Cheng,et al.  Dynamic urea bond for the design of reversible and self-healing polymers , 2014, Nature Communications.

[37]  V. Bermudez,et al.  FT-IR and Raman spectroscopic study of di-urea cross-linked poly (oxyethylene)/siloxane ormolytes doped with Zn2+ ions , 2006 .

[38]  Jmw Jean-Francois Gohy Metallo-supramolecular block copolymer micelles , 2002 .

[39]  Luo Ning,et al.  Hydrogen-Bonding Properties of Segmented Polyether Poly(urethane urea) Copolymer , 1997 .

[40]  Qiuyu Zhang,et al.  Preparation of multi-functional polyamide vitrimers via the Ugi four-component polymerization and oxime-promoted transcarbamoylation reaction , 2021 .

[41]  Sung-Ho Shin,et al.  Superior Toughness and Fast Self‐Healing at Room Temperature Engineered by Transparent Elastomers , 2018, Advanced materials.