Self-healing and elastic polymer gel via terpyridine-metal coordination
暂无分享,去创建一个
Shengyi Dong | Shuanggen Wu | Tun Wu | Pingshan Wang | Ting Xie | Haisheng Liu | Zhe Zhang | Yiming Li | Zhiyuan Jiang | Jie Yuan | Yifei Peng | Yisen Peng
[1] Qingfu Sun,et al. Coordination-Assembly of Lanthanide Supramolecular Hydrogels with Luminescent Multi-stimulus Response. , 2021, Inorganic chemistry.
[2] Xudong Yu,et al. Switchable Supramolecular Configurations of Al3+/LysTPY Coordination Polymers in a Hydrogel Network Controlled by Ultrasound and Heat. , 2021, ACS applied materials & interfaces.
[3] Guoying Gu,et al. Biomimetic Impact Protective Supramolecular Polymeric Materials Enabled by Quadruple H-Bonding. , 2020, Journal of the American Chemical Society.
[4] Xuzhou Yan,et al. Woven Polymer Networks via the Topological Transformation of a [2]Catenane. , 2020, Journal of the American Chemical Society.
[5] L. Dai,et al. TpyCo2+‐Based Coordination Polymers by Water‐Induced Gelling Trigged Efficient Oxygen Evolution Reaction , 2020, Advanced Functional Materials.
[6] D. Qu,et al. Toughening a Self-Healable Supramolecular Polymer by Ionic Cluster-Enhanced Iron-Carboxylate Complexes. , 2020, Angewandte Chemie.
[7] Huanrong Li,et al. Highly stretchable and fast self-healing luminescent materials. , 2020, ACS applied materials & interfaces.
[8] A. Souslov,et al. Odd elasticity , 2019, Nature Physics.
[9] Yohei Miwa,et al. A gas-plastic elastomer that quickly self-heals damage with the aid of CO2 gas , 2019, Nature Communications.
[10] Zhiqiang Niu,et al. A Self-Healing Integrated All-in-One Zinc-Ion Battery. , 2019, Angewandte Chemie.
[11] P. Ma,et al. Stimuli-Responsive Conductive Nanocomposite Hydrogels with High Stretchability, Self-Healing, Adhesiveness, and 3D Printability for Human Motion Sensing. , 2019, ACS applied materials & interfaces.
[12] J. B. Tok,et al. An Elastic Autonomous Self‐Healing Capacitive Sensor Based on a Dynamic Dual Crosslinked Chemical System , 2018, Advanced materials.
[13] H. Christenson,et al. Dynamic Measurement of Low Contact Angles by Optical Microscopy. , 2018, ACS applied materials & interfaces.
[14] L. Grover,et al. Structuring of Hydrogels across Multiple Length Scales for Biomedical Applications , 2018, Advanced materials.
[15] Pingao Huang,et al. Quadruple H-Bonding Cross-Linked Supramolecular Polymeric Materials as Substrates for Stretchable, Antitearing, and Self-Healable Thin Film Electrodes. , 2018, Journal of the American Chemical Society.
[16] Shutao Wang,et al. Bioinspired Supramolecular Lubricating Hydrogel Induced by Shear Force. , 2018, Journal of the American Chemical Society.
[17] M. Moses,et al. Nanoparticle elasticity directs tumor uptake , 2018, Nature Communications.
[18] C. Schalley,et al. Structural water as an essential comonomer in supramolecular polymerization , 2017, Science Advances.
[19] B Kollbe Ahn,et al. Toughening elastomers using mussel-inspired iron-catechol complexes , 2017, Science.
[20] D. Adams,et al. Low-Molecular-Weight Gels: The State of the Art , 2017 .
[21] Li-Ya Niu,et al. A Solid‐State Fluorescent Material Based on Carbazole‐Containing Difluoroboron β‐Diketonate: Multiple Chromisms, the Self‐Assembly Behavior, and Optical Waveguides , 2017 .
[22] Feihe Huang,et al. Fluorescent Supramolecular Polymeric Materials , 2017, Advanced materials.
[23] Zongwen Zhang,et al. Steric-Structure-Dependent Gel Formation, Hierarchical Structures, Rheological Behavior, and Surface Wettability. , 2016, Chemistry, an Asian journal.
[24] Xiaodan Gu,et al. Intrinsically stretchable and healable semiconducting polymer for organic transistors , 2016, Nature.
[25] Lingxin Chen,et al. Macroscopic and Fluorescent Discrimination of Adenosine Triphosphate via Selective Metallo-hydrogel Formation: A Visual, Practical, and Reliable Rehearsal toward Cellular Imaging. , 2016, ACS applied materials & interfaces.
[26] C. Tung,et al. Supramolecular Polymeric Fluorescent Nanoparticles Based on Quadruple Hydrogen Bonds , 2016 .
[27] A. Lukyanov,et al. Dynamic Contact Angle at the Nanoscale: A Unified View. , 2016, ACS nano.
[28] Mario Miscuglio,et al. Highly Elastic and Conductive Human‐Based Protein Hybrid Hydrogels , 2016, Advanced materials.
[29] Jie Zhou,et al. Supramolecular Hydrogelators and Hydrogels: From Soft Matter to Molecular Biomaterials , 2015, Chemical reviews.
[30] Ye Shi,et al. A Conductive Self-Healing Hybrid Gel Enabled by Metal-Ligand Supramolecule and Nanostructured Conductive Polymer. , 2015, Nano letters.
[31] Xinxin Tan,et al. Supramolecular Polymers: Historical Development, Preparation, Characterization, and Functions. , 2015, Chemical reviews.
[32] Masayuki Takeuchi,et al. Living supramolecular polymerization realized through a biomimetic approach , 2014, Nature Chemistry.
[33] A. Khademhosseini,et al. Bioactive Silicate Nanoplatelets for Osteogenic Differentiation of Human Mesenchymal Stem Cells , 2013, Advanced materials.
[34] C. Su,et al. Metal-organic gels: From discrete metallogelators to coordination polymers , 2013 .
[35] Feihe Huang,et al. Self-healing supramolecular gels formed by crown ether based host-guest interactions. , 2012, Angewandte Chemie.
[36] E. W. Meijer,et al. Functional Supramolecular Polymers , 2012, Science.
[37] Xia Ding,et al. A Multiresponsive, Shape‐Persistent, and Elastic Supramolecular Polymer Network Gel Constructed by Orthogonal Self‐Assembly , 2012, Advanced materials.
[38] Feihe Huang,et al. Supramolecular polymer nanofibers via electrospinning of a heteroditopic monomer. , 2011, Chemical communications.
[39] Donghua Xu,et al. Scaling Laws in Supramolecular Polymer Networks. , 2011, Macromolecules.
[40] Justin R. Kumpfer,et al. Optically healable supramolecular polymers , 2011, Nature.
[41] Donghua Xu,et al. Divergent Shear Thinning and Shear Thickening Behavior of Supramolecular Polymer Networks in Semidilute Entangled Polymer Solutions. , 2011, Macromolecules.
[42] Oren A Scherman,et al. Supramolecular cross-linked networks via host-guest complexation with cucurbit[8]uril. , 2010, Journal of the American Chemical Society.
[43] Jeffrey S. Moore,et al. Introduction: self-healing polymers and composites , 2007, Journal of The Royal Society Interface.
[44] Wayne Hayes,et al. Healable polymeric materials: a tutorial review. , 2010, Chemical Society reviews.
[45] Donghua Xu,et al. Mechanism of Shear Thickening in Reversibly Cross-linked Supramolecular Polymer Networks. , 2010, Macromolecules.
[46] Feihe Huang,et al. Metal coordination mediated reversible conversion between linear and cross-linked supramolecular polymers. , 2010, Angewandte Chemie.