Repeatable Photoinduced Self-Healing of Covalently Cross-Linked Polymers through Reshuffling of Trithiocarbonate Units
about
Multivalent hydrogen bonding block copolymers self-assemble into strong and tough self-healing materialsDynamic urea bond for the design of reversible and self-healing polymersSelf-Healing Materials from V- and H-Shaped Supramolecular Architectures.Reconfigurable assemblies of active, autochemotactic gels.Plastic deformation, wrinkling, and recovery in microgel multilayers.Conditional repair by locally switching the thermal healing capability of dynamic covalent polymers with light.Silica-like malleable materials from permanent organic networks.Photodegradable, Photoadaptable Hydrogels via Radical-Mediated Disulfide Fragmentation ReactionVisible-Light-Induced Self-Healing Diselenide-Containing Polyurethane Elastomer.Living Additive Manufacturing: Transformation of Parent Gels into Diversely Functionalized Daughter Gels Made Possible by Visible Light Photoredox CatalysisMultiply fully recyclable carbon fibre reinforced heat-resistant covalent thermosetting advanced composites.Dynamic combinatorial chemistry as a tool for the design of functional materials and devices.Stimuli-responsive supramolecular polymeric materials.Chemistry of crosslinking processes for self-healing polymers.Chemo-responsive, self-oscillating gels that undergo biomimetic communication.Light-triggered self-healing and shape-memory polymers.Optically healable polymers.Covalent adaptable networks: smart, reconfigurable and responsive network systems.Graphene-based macroscopic assemblies and architectures: an emerging material system.Stimuli responsive upconversion luminescence nanomaterials and films for various applications.Dynamic Covalent Polymer Networks: from Old Chemistry to Modern Day Innovations.Vitrimers: permanent organic networks with glass-like fluidity.Light-Stimulated Permanent Shape Reconfiguration in Cross-Linked Polymer Microparticles.A rapid and efficient self-healing thermo-reversible elastomer crosslinked with graphene oxide.Photo-controlled growth of telechelic polymers and end-linked polymer gels.2-Ureido-4-pyrimidone-based hydrogels with multiple responses.A new dynamic covalent bond of Se-N: towards controlled self-assembly and disassembly.Self-healing supramolecular gels formed by crown ether based host-guest interactions.Application of an Addition-Fragmentation-Chain Transfer Monomer in Di(meth)acrylate Network Formation to Reduce Polymerization Shrinkage Stress.Self-healing supramolecular block copolymers.Release and recovery of guest molecules during the reversible borate gel formation of guest-included macrocyclic boronic esters."Click"-Triggered Self-Healing Graphene Nanocomposites.Photoinduced diffusion through polymer networks.Lowering the Healing Temperature of Photoswitchable Dynamic Covalent Polymer Networks.Self-Healing Molecular Crystals.Optimal Reactivity and Improved Self-Healing Capability of Structurally Dynamic Polymers Grafted on Janus Nanoparticles Governed by Chain Stiffness and Spatial Organization.An Injectable Self-Healing Hydrogel Based on Chain-Extended PEO-PPO-PEO Multiblock Copolymer.Mechanical Robust and Self-Healable Supramolecular Hydrogel.Malleable and Recyclable Poly(urea-urethane) Thermosets bearing Hindered Urea Bonds.Sulfenamides as Building Blocks for Efficient Disulfide-Based Self-Healing Materials. A Quantum Chemical Study.
P2860
Q28245183-ABFCE90A-580C-4B03-ACC2-3CB35E423F94Q28307196-B6C8F159-0FF5-4AFF-BCF9-EB1081B1C1E4Q30316417-158134DC-030F-4FB1-8CED-0C1C77C055EEQ30532350-951B3FC1-DF16-4B2D-A862-0B8C0139592AQ30564415-6A01E18A-8802-4A5E-8090-7004B75D9331Q30832178-07ABECE5-F6BF-4267-9526-F84C00F94E0DQ34233919-CB07DD8A-520C-46E7-9735-59A3BB074447Q34813205-A69CD99E-6834-413C-A30A-6770E5DF77D2Q35814480-94EBABB9-0C59-4855-910B-620C5BE31D57Q37663109-3A18F3DC-EC2E-4938-B0D2-EC49B652C947Q37681810-AAAB0B52-321B-4113-A234-3DCBB2EBDE66Q37930440-A2E9D1CB-6C3C-425A-8831-FA19CE51BD24Q38012349-77A4EB7C-7096-4ECD-A4D1-052A191CA936Q38068819-A14162FC-6973-4954-9A44-B57B6B76E5D4Q38078210-94E68591-91A4-45B8-8952-692C178EC3B4Q38084562-7A72F304-D9B3-46C9-A790-DA9C076B424AQ38089605-4683546A-8D75-4F48-8103-6F5A41B6E38EQ38098450-EA228805-1BE9-4F58-8169-35FD36A3FB60Q38234315-02FFD40D-07C6-44CC-AAEF-18D8CF355E78Q38247007-B0B06F9C-5411-4289-BD5E-C7811B50A150Q38754989-30B6F649-04CD-495F-861A-988673D7A4FEQ38926143-348F4897-629B-4E0A-9A2C-41FE53CABB7AQ41554543-5D62C9B0-3568-4BFD-A0CE-9C650269EAE8Q43575319-589937BF-C2BF-40B7-9D08-06C865F2F801Q44330982-F0406FC3-FC03-4B5A-9024-159840EBD4E9Q45057018-E61B5F3C-2EA0-4BC8-8610-BA2A7CAC098DQ45107899-A471D09F-9619-4803-8191-70EEA1E22FB3Q45217826-5F44091C-8964-4713-B191-90B4B62F1840Q46268478-43B11D6E-EC3A-43F5-A5F2-859922BC7FCCQ46283134-F9EBE69F-F63F-4538-B188-237866D9726EQ46463298-C940D0EE-06C4-4F41-8C8E-5873F1359202Q46466253-95DD8D8D-3E65-4DBD-A975-1639BE964DF0Q46847837-54DA4382-4C87-45B1-980C-2942EAFC2D04Q48259855-AD514084-08EA-4D63-BDBB-11177BDC2DE1Q48351938-69E7498F-86D8-4800-95DF-48209EE293E0Q48869654-E5A49011-7A0A-4661-AA77-C050802318C4Q48947693-891B9EF6-9498-45C3-9B9B-CDCA758E24E2Q50904423-2EBE9DF7-5E37-42F8-AE35-2FB23C5B84A9Q51270375-4577E653-A7A5-4954-A175-34BBFAE3E866Q52659196-E2938898-8ACF-4CBD-9F44-BEE92168903E
P2860
Repeatable Photoinduced Self-Healing of Covalently Cross-Linked Polymers through Reshuffling of Trithiocarbonate Units
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2011
@uk
name
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@en
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@nl
type
label
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@en
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@nl
prefLabel
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@en
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@nl
P2860
P50
P356
P1476
Repeatable Photoinduced Self-H ...... ling of Trithiocarbonate Units
@en
P2093
Jun Kamada
P2860
P304
P356
10.1002/ANIE.201003888
P407
P577
2011-01-10T00:00:00Z